Category Archives: Series: PowerShell Monitoring

Monitoring with PowerShell: Monitoring Bitdefender status

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We’re considering moving RMM systems, and that means reevaluating parts of our stack. One of the pain points in our current stack is the monitoring of anti-virus, we often felt like there is not enough transparency and data returned via our RMM system. Either the system does not return the current state of alerts or forces us to use separate portals.

So I’ve built this for any potential RMM system, decreasing the need to switch a lot between applications, get alerted earlier and allow reporting directly from the RMM system on any threats you’ve encountered.

Quarantine monitoring

To monitor the quarantine we grab the information from the SQLLite Database that Bitdefender creates. To do that we’ll need to download the SQLLite dll that allows us access via Powershell. Remember to host this yourself somewhere. 🙂

if (!$SQLLite) {
    Invoke-WebRequest -uri "https://cyberdrain.com/wp-content/uploads/2021/02/System.Data.SQLite.dll" -UseBasicParsing -OutFile "C:\Programdata\System.Data.SQLite.dll"
}

try {
    add-type -path "C:\Programdata\System.Data.SQLite.dll"
}
catch {
    Write-Host "Could not load database components."
    exit 1
}
$con = New-Object -TypeName System.Data.SQLite.SQLiteConnection
$con.ConnectionString = "Data Source=C:\Program Files\Bitdefender\Endpoint Security\Quarantine\cache.db"
$con.Open()
$sql = $con.CreateCommand()
$sql.CommandText = "select * from entries"
$adapter = New-Object -TypeName System.Data.SQLite.SQLiteDataAdapter $sql
$data = New-Object System.Data.DataSet
[void]$adapter.Fill($data)
$sql.Dispose()
$con.Close()

$CurrentQ = foreach ($row in $Data.Tables.rows) {
    [PSCustomObject]@{
        Path               = $row.path
        Threat             = $row.threat
        Size               = $row.Size
        'Quarantined On'   = [timezone]::CurrentTimeZone.ToLocalTime(([datetime]'1/1/1970').AddSeconds($row.quartime))
        'Last accessed On' = [timezone]::CurrentTimeZone.ToLocalTime(([datetime]'1/1/1970').AddSeconds($row.acctime))
        'Last Modified On' = [timezone]::CurrentTimeZone.ToLocalTime(([datetime]'1/1/1970').AddSeconds($row.modtime))
    }
}

if ($CurrentQ) {
    write-host $CurrentQ
}
else {
    write-host "Healthy - No infections found."
}

Scan Result monitoring

Of course just monitoring the quarantine is not enough, we also want to know the results of each scan and pick that up, For that we have the next script; this checks the last scan XML file for any aberrant behaviour such as infected files or deleted ones.

$LastScanResult = (get-childitem "C:\Program Files\Bitdefender\Endpoint Security\logs\system" -Recurse -Filter "*.xml" | Sort-Object -Property LastWriteTime | Select-Object -last 1 | get-content -raw)

if (!$LastScanResult) {
    write-host "Unhealthy - could not retrieve last scan result."
    exit 1
}
$ScanResults = [PSCustomObject]@{
    Scanned       = ($LastScanResult.ScanSession.ScanSummary.TypeSummary.Scanned | measure-object -sum).Sum
    Infected      = ($LastScanResult.ScanSession.ScanSummary.TypeSummary.Infected | measure-object -sum).Sum
    suspicious    = ($LastScanResult.ScanSession.ScanSummary.TypeSummary.suspicious | measure-object -sum).Sum
    Disinfected   = ($LastScanResult.ScanSession.ScanSummary.TypeSummary.Disinfected | measure-object -sum).Sum
    Deleted       = ($LastScanResult.ScanSession.ScanSummary.TypeSummary.deleted | measure-object -sum).Sum
    Moved         = ($LastScanResult.ScanSession.ScanSummary.TypeSummary.moved | measure-object -sum).Sum
    Moved_reboot  = ($LastScanResult.ScanSession.ScanSummary.TypeSummary.moved_reboot | measure-object -sum).Sum
    Delete_reboot = ($LastScanResult.ScanSession.ScanSummary.TypeSummary.delete_reboot | measure-object -sum).Sum
    Renamed       = ($LastScanResult.ScanSession.ScanSummary.TypeSummary.renamed | measure-object -sum).Sum
}

$Alertresult = $ScanResults | Select-Object -Property * -ExcludeProperty Scanned | Where-Object { $_.psobject.properties.value -gt 0 }

if ($Alertresult) {
    write-host "Unhealthy - Last scan found issues"
    $ScanResults
}
else {
    write-host "Healthy - Last scan found no issues."
    $ScanResults
}

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

Monitoring with PowerShell: Monitoring listening applications

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In one of the online communities I follow someone encountered an issue with application listeners and ports being in use. The use case is that users have a Autocad type application installed that launches a server on a specific port; the users also run a remote control application that at times steals the port.

We’ve seen this all before – IIS being installed on a server and a new application also wanting to use port 443 or port 80, so I figured I’d help by creating him a monitoring script. This script is multifunctional; you can have it alert on changed listeners, you can have it alert on a specific one you expect to be there, or you can alert on applications that should not be listening.

The Script

Change the script to your own wishes, you can either remove the if statements at the bottom, or change the variables at top. 🙂

$ExpectedApplication = "vmms"
$NotAllowedApplication = "Teamviewer"
$CompareToPrevious = $true


$Connections = Get-NetTCPConnection |  Where-Object { $_.LocalAddress -eq "0.0.0.0" -and $_.State -eq "Listen" } 
$Processes = Get-Process

$CurrentListeners = foreach ($Connection in $Connections) {
   [PSCustomObject]@{
      Process = ($Processes | Where-Object id -eq $Connection.OwningProcess).Name
      Port    = ($Connection.LocalPort)
      Path    = ($Processes | Where-Object id -eq $Connection.OwningProcess).Path
   }
}


if ($ExpectedApplication -notin $CurrentListeners.Process) {
   write-host "Unhealthy - The expected application was not found in the current process list"
}
else {
   write-host "Healthy - The expected application was found in the current process list"
}

if ($NotAllowedApplication -in $CurrentListeners.Process) {
   write-host "Unhealthy - The non-allowed application was found in the current process list"
}
else {
   write-host "Healthy - The non-allowed application was not found in the current process list"
}

if ($CompareToPrevious -eq $true) {
   $PreviousResult = Get-content -Path "C:\ProgramData\ListenerMonitor.txt" | ConvertFrom-Json
   $Result = Compare-Object $CurrentListeners $PreviousResult -Property Process,Port,Path
   if ($Result) {
      write-host "Unhealthy - The Listener list has changed."
      $Result
   }
   else {
      write-host "Healthy - The Listener list is still the same."
   }
   $CurrentListeners | ConvertTo-Json |out-file "C:\ProgramData\ListenerMonitor.txt" 
}

and that’s it! as always, Happy PowerShelling.

Monitoring with PowerShell: Monitoring Storage Spaces and Windows RAID

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So this blog was requested a lot lately – I’m not a big fan of using Windows RAID anywhere but Storage Spaces is becoming more relevant each day, with S2D and larger deployments. Storage Spaces is Microsoft’s successor to the classical Windows Software RAID options.

I’ve made some scripts for both options, but I sure advise to look into Storage Spaces over classical Windows software RAID in any case.

Windows RAID Monitoring

So let’s start with the one I do not prefer, just to get it out of the way 😉 Monitoring Windows RAID is not really as straightforward as you’d expect. The issue is that it’s quite OS dependent on what data is returned via the wmi instances. To avoid using WMI/CIM we’re using diskpart instead. Diskpart prints to the console and the content is not easily converted into a PowerShell object.

So in comes regex. I found another blogger that had a visual basic script to monitor Windows RAID and used his regular expression, but converted to PowerShell instead;

try {
    $volumes = "list volume" | diskpart | Where-Object { $_ -match "^  [^-]" } | Select-Object -skip 1

    $RAIDState = foreach ($row in $volumes) {
        if ($row -match "\s\s(Volume\s\d)\s+([A-Z])\s+(.*)\s\s(NTFS|FAT)\s+(Mirror|RAID-5|Stripe|Spanned)\s+(\d+)\s+(..)\s\s([A-Za-z]*\s?[A-Za-z]*)(\s\s)*.*") {
            $disk = $matches[2] 		
            if ($row -match "OK|Healthy") { $status = "OK" }
            if ($row -match "Rebuild") { $Status = 'Rebuilding' }
            if ($row -match "Failed|At Risk") { $status = "CRITICAL" }
	
            [pscustomobject]@{
                Disk   = $Disk
                Status = $status
            }
        }
    }
    $RAIDState = $RAIDState | Where-Object { $_.Status -ne "OK" }
}
catch {
    write-output "Command has Failed: $($_.Exception.Message)"

}

if ($RAIDState) {
    write-ouput"Check Diagnostics. Possible RAID failure."
    write-ouput $RAIDState
}
else {
    write-output "Healthy - No RAID Mirror issues found"
}

And that’s it for this one. This will show the state of each disk and alert is if it anything but OK.

Monitoring Storage Spaces and physical disks

So monitoring Storage Spaces is a lot easier; the cmdlets are the same everywhere and it doesn’t require extracting information from other sources. All you need is to monitor both the physical disk, and the storage pool;


try {
    $Disks = get-physicaldisk | Where-Object { $_.HealthStatus -ne "Healthy" }
}
catch {
    write-output "Command has Failed: $($_.Exception.Message)"
    exit 1
}

if ($disks) {
    write-output "Check Diagnostics. Possible disk failure."
    write-output $disks
    exit 1
}
else {
    write-output "Healthy - No Physical Disk issues found"
}

This script would show the current physical disk health status, this is a combination of write-endurance on SSDs, SMART status for HDDs and other info that windows collects by default. You don’t need storage spaces for that portion, really.


try {
    $RAIDState = Get-VirtualDisk | where-object { $_.OperationalStatus -ne "OK"}
    }
    catch {
        write-output "Command has Failed: $($_.Exception.Message)"
        exit 1
    }
    
    if ($RAIDState) {
        write-output "Check Diagnostics. Possible RAID failure."
        write-output $RAIDState
        exit 1
    }
    else {
        write-output "Healthy - No StorageSpace issues found"
    }

And this one reports on the exact state of the virtual drive, thus if anything is wrong you’ll get an alert stating what happened. And that’s it for now! I hope you enjoyed and as always, Happy PowerShelling and I hope to see some of you at the #CyberDrainCTF!

Monitoring with PowerShell: Monitoring BSODs without event viewer

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I’ve written about monitoring BSODs some years ago. Back then I simply used a event log lookup as an example how to monitor BSODs. I never really liked that method because it did not give me all the verbosity I would’ve liked. Moments after I published that blog I’ve actually made a better monitoring set that I did not share; so I figured others might benefit from it now.

I don’t like event log based monitoring as it can get rather resource intensive and you don’t really have a way of getting all the required information out of the events; a good example is which driver actually caused the BSOD. This always meant that after a device experiences a BSOD you’d have to go to the device to check the exact reason. Boo for manual labour! 😉

So to solve this I’ve implemented NirSoft Bluescreenview.exe as a solution. Nir Sofer’s tools are freeware and fantastic for administration at MSPs. Bluescreenview.exe allows us to export all BSODs that occured in the past and displays which specific reason the blue screen had without having to go to the device.

The Script

We’re downloading Bluescreenview from Nir directly in this case, for security reason I would highly recommend hosting the zip file somewhere yourself, of course.

try {
    Invoke-WebRequest -Uri "https://www.nirsoft.net/utils/bluescreenview.zip" -OutFile "$($ENV:Temp)\bluescreeview.zip"
    Expand-Archive "$($ENV:Temp)\bluescreeview.zip" -DestinationPath "$($ENV:Temp)" -Force
    Start-Process -FilePath "$($ENV:Temp)\Bluescreenview.exe" -ArgumentList "/scomma `"$($ENV:Temp)\Export.csv`"" -Wait

}
catch {
    Write-Host "BSODView Command has Failed: $($_.Exception.Message)"
    exit 1
}

$BSODs = get-content "$($ENV:Temp)\Export.csv" | ConvertFrom-Csv -Delimiter ',' -Header Dumpfile, Timestamp, Reason, Errorcode, Parameter1, Parameter2, Parameter3, Parameter4, CausedByDriver | foreach-object { $_.Timestamp = [datetime]::Parse($_.timestamp, [System.Globalization.CultureInfo]::CurrentCulture); $_ }
Remove-item "$($ENV:Temp)\Export.csv" -Force

$BSODFilter = $BSODs | where-object { $_.Timestamp -gt ((get-date).addhours(-24)) }

if (!$BSODFilter) {
    write-host "Healthy - No BSODs found in the last 24 hours"
}
else {
    write-host "Unhealthy - BSOD found. Check Diagnostics"
    $BSODFilter 
    exit 1
}

And that’s it! this should give you a bit clearer BSODs monitoring where you can see which driver or application caused it, with just a glance. As always, Happy PowerShelling.

Monitoring with PowerShell: Monitoring Powershell Protect

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So let’s start with the great news first; PowerShell protect is now open-source and free to use! PowerShell Protect is a AMSI Provider for PowerShell, now technically this sounds rather complex but it pretty much means that PowerShell Protect is able to secure the PowerShell host in the same way your antivirus does.

The great thing about PowerShell Protect is that it allows you to monitor exactly which commands have been executed, but also catch them and block them for usage if you don’t trust it.

This means you can block so called LoLBas and LolBin via Powershell with relative ease. In this blog I’ll show you to do deploy PowerShell Protect, and how to monitor activity generated by it. So let’s start getting our clients more secure and less prone to persistence attacks.

Installing PowerShell Protect

Installing PowerShell Protect is done from the PowerShell gallery, the moment you install the module nothing happens yet, and you’ll need to add rules and install the actual AMSI provider. We’re using the default rules, but are also adding some rules for logging entries we want to see, as an example I’ll add logging for invoke-restmethod

This means we’ll block the following list;

  • Block AMSI Bypass Protection
  • Block Module and Script Block Logging Bypass Protection
  • Block Assembly Load from Memory
  • Block Disabling Defender
  • Block Use of the System.Reflection.Emit Namespace
  • Block PowerSploit(Invoke-mimikatz and derivatives.)
  • Block the Marshal Class
  • Block WMI Event Subscription persistance
  • Block Bloodhound
  • Block Kerberoasting
  • Block invoke-expression

All of these rules heighten our protection against bad actors, while still allowing enough flexibility to actually use PowerShell for our day to day operations with our RMM system, so let’s deploy shall we?

 
write-host "Getting the PowerShellProtect Module" -ForegroundColor Green
If (Get-Module -ListAvailable -Name "PowerShellProtect") { 
    Import-module PowerShellProtect
}
Else { 
    Install-Module PowerShellProtect -Force
    Import-Module PowerShellProtect
}
Write-Host "Applying PowerShellProtect default settings" -ForegroundColor Green
Install-PowerShellProtect

$Condition = New-PSPCondition -Property "command" -Contains -Value "Invoke-RestMethod"
$WriteToFile = New-PSPAction -File -Path "C:\Programdata\PowerShellProtect\Log.txt" -Format "{timestamp},{rule},{ApplicationName},{UserName},{ContentPath},{Script}" -Name 'AdminFile'
$Rule = New-PSPRule -Name "LogToFile" -Action $WriteToFile -Condition $Condition

$Config = New-PSPConfiguration -Rule $Rule -Action $WriteToFile

Set-PSPConfiguration -Configuration $Config -FileSystem

So now all invoke-restmethod requests are logged to C:\Programdata\PowershellProtect\Log.txt, and all those things up there get blocked by PowerShell too! Let’s move on to a bit of monitoring:

Monitoring the PowerShell Protect log

Because we’re outputting the log in a CSV form, it becomes easy to monitor in PowerShell, we load the file as a CSV and filter only events that happened in the last 5 minutes.

$AllEvents = import-csv 'C:\Programdata\PowerShellProtect\Log.txt' -Header timestamp, rule, ApplicationName, UserName, ContentPath  -Delimiter ',' | ForEach-Object { $_.Timestamp = [datetime]::ParseExact($_.timestamp, "dd/MM/yyyy HH:mm:ss", $null); $_ }

$FilteredEvents = $AllEvents | Where-Object { $_.timestamp -gt (Get-Date).ToUniversalTime().AddMinutes(-5) }

if ($FilteredEvents) {
    write-host "Unhealthy - Events found. "
    $FilteredEvents
} else {
    Write-Host "Healty - No events found."
}

So this outputs if there are no events found, or when there are events it’ll output exactly what was found, the time and date, which executable ran the script and to top it off which user executed the command.

And that’s it! there’s a lot more to PowerShell protect and I’ll probably make a second blog about it soon, right after I assist the project with some changes 😉

As always, Happy PowerShelling!

Monitoring with PowerShell: Monitoring WVD availability

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We’re in the middle of WVD deployment at my MSP. This client is located all over the world and needed an easy way to manage virtual desktops over many regions. This deployment actually got me thinking about how monitoring the WVD environment should be done.

We found that the WVD agent on the VMs at times did not finish the upgrade correctly, or that session hosts became unavailable at inopportune times such as when there is a high logon load. Of course we could’ve setup some Azure Alerts for this but that would be forgoing our RMM system as the single source of alerts, so as always; in comes PowerShell.

As you can’t directly retrieve the information if a session host is available from the VMs themselves I’ve made a script that checks their status via the Azure management plane, it picks up if the updates have been installed correctly, heartbeats aren’t missed, and of course if the session host is actually available. As we’ve also had issues in the past with people forgetting to remove Drain Mode from a WVD pool I’ve also added this.

The Script

The script checks all tenants that are in Lighthouse, if you haven’t configured lighthouse yet, check out my manual here. You can change the alerts to whichever you’d like. 

######### Secrets #########S
$ApplicationId = 'AppID'
$ApplicationSecret = 'ApplicationSecret' | ConvertTo-SecureString -Force -AsPlainText
$TenantID = 'YourTenantID'
$RefreshToken = 'yourrefreshtoken'
$UPN = "UPN-Used-To-Generate-Tokens"
######### Secrets #########
If (Get-Module -ListAvailable -Name Az.DesktopVirtualization) { 
    Import-module Az.DesktopVirtualization
}
Else { 
    Install-PackageProvider NuGet -Force
    Set-PSRepository PSGallery -InstallationPolicy Trusted
    Install-Module -Name Az.DesktopVirtualization -force
}
$credential = New-Object System.Management.Automation.PSCredential($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
$SessionHostState = foreach ($Sub in $Subscriptions) {
    $null = $Sub | Set-AzContext

    $WVDHostPools = Get-AzResource -ResourceType 'Microsoft.DesktopVirtualization/hostpools'
    if (!$WVDHostpools) {
        write-host "No hostpool found for tenant $($Sub.name)"
        continue
    }
    write-host "Found hostpools. Checking current availibility status"
    foreach ($HostPool in $WVDHostPools) {
        $AllHPState = get-AzWvdsessionhost -hostpoolname $Hostpool.name -resourcegroupname $hostpool.resourcegroupname 
        Foreach ($State in $AllHPState) {
            [PSCustomObject]@{
                HostName         = $State.Name
                Available        = $State.Status
                Heartbeat        = $State.LastHeartBeat
                UpdateState      = $State.UpdateState
                LastUpdate       = $State.LastUpdateTime
                AllowNewSessions = $State.AllowNewSession
                Subscription     = $Sub.Name
            
            }
        }
    }

}

#Check for WVD Session hosts that have issues updating the agent:

if (($SessionHostState | Where-Object { $_.UpdateState -ne 'Succeeded' })) {
    write-host "Unhealthy - Some session hosts have not updated the Agent correctly."
    $SessionHostState | Where-Object { $_.UpdateState -ne 'Succeeded' }
}
else {
    write-host "Healthy - Session hosts all updated."   
}


#Check for unavailable hosts
if (($SessionHostState | Where-Object { $_.Available -ne 'Available' })) {
    write-host "Unhealthy - Some session hosts are unavailable."
    $SessionHostState | Where-Object { $_.Available -ne 'Available' }
}
else {
    write-host "Healthy - Session hosts all updated."   
}

#Check for hosts in drain mode
if (($SessionHostState | Where-Object { $_.AllowNewSessions -eq $false })) {
    write-host "Unhealthy - Some session hosts are in drain mode"
    $SessionHostState | Where-Object { $_.AllowNewSessions -eq $false }
}
else {
    write-host "Healthy - No sessionhosts in drain mode."   
}

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

Automating with PowerShell: Automatically following all Sharepoint Sites or Teams for all users

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So a while back we had a client that uses a lot of sharepoint sites. The client only used Sharepoint online, and found it hard to find all the sites in one place. We pointed them to https://YOURDOMAIN.sharepoint.com/_layouts/15/sharepoint.aspx which gives a nice overview of sites and teams.

They came back to us saying it was a little bit of a hassle to use the overview as it only shared recently used sites, or sites that have been followed manually. Of course we wanted to help them get over this hassle so we scripted this; The following script allows you to grab all sites the user is a member of. It then adds the site to the favorites for that user. You can schedule this so each new user automatically gets added.

The Script

The script uses the Secure Application Model or just a generic Azure Application with permissions to read all sites for your tenants, and all your CSP tenants. The script finds each Team the user has joined and adds them to the favorites for that user.

$TenantID = 'CUSTOMERTENANT.ONMICROSOFT.COM'
$ApplicationId = "YOURPPLICTIONID"
$ApplicationSecret = "YOURAPPLICATIONSECRET"
 
$body = @{
    'resource'      = 'https://graph.microsoft.com'
    'client_id'     = $ApplicationId
    'client_secret' = $ApplicationSecret
    'grant_type'    = "client_credentials"
    'scope'         = "openid"
}

$ClientToken = Invoke-RestMethod -Method post -Uri "https://login.microsoftonline.com/$($tenantid)/oauth2/token" -Body $body -ErrorAction Stop
$headers = @{ "Authorization" = "Bearer $($ClientToken.access_token)" }
$Users = (Invoke-RestMethod -Uri "https://graph.microsoft.com/beta/users" -Headers $Headers -Method Get -ContentType "application/json").value.id
 
foreach ($userid in $users) {
    $AllTeamsURI = "https://graph.microsoft.com/beta/users/$($UserID)/JoinedTeams"
    $Teams = (Invoke-RestMethod -Uri $AllTeamsURI -Headers $Headers -Method Get -ContentType "application/json").value
    foreach ($Team in $teams) {
        $SiteRootReq = Invoke-RestMethod -Uri "https://graph.microsoft.com/beta/groups/$($Team.id)/sites/root" -Headers $Headers -Method Get -ContentType "application/json"
        $AddSitesbody = [PSCustomObject]@{
            value = [array]@{
                "id" = $SiteRootReq.id
            }
        } | convertto-json
        $FavoritedSites = Invoke-RestMethod -Uri "https://graph.microsoft.com/beta/users/$($userid)/followedSites/add" -Headers $Headers -Method POST -body $AddSitesBody -ContentType "application/json"
        write-host "Added $($SiteRootReq.webURL) to favorites for $userid"
    }


}

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

Monitoring with PowerShell: Monitoring potential phishing campaigns

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So Microsoft offers a lot of cool tools for Microsoft 365 users, even if you aren’t using the complete suite. One of these is potential phishing detection, by default Microsoft does an analysis of each received e-mail to check if they are potential phishing attempts. You can check these via the interface by going to protection.office.com, Threat Management and clicking on the dashboard.

Of course that’s nice to do a one-off check, but we like getting alerted whenever we see these phishing attempts get above a specific number. For this, we can of course use PowerShell.

By using the PowerShell cmdlet ‘Get-ATPTotalTrafficReport’ (Don’t worry, you don’t need ATP.) we can get the reports from the interface in text format. This allows us to alert whenever a phishing campaign is started and exceeds a threshold we set.

For these scripts you’ll need the Secure Application Model first, to be able to login securely and according to Microsoft’s partner standards. There’s two different versions of the script; one for a single tenant, and another for all tenants under your administration.

Single tenant version

All you have to do for the single tenant version is to enter your credentials, and set what you believe is the maximum phishing attempts for 2 weeks. 

######### Secrets #########
$ApplicationId = 'YourAPPID'
$ApplicationSecret = 'Applicationsecret' | ConvertTo-SecureString -AsPlainText -Force
$TenantID = 'YourTenantID'
$RefreshToken = 'RefreshToken'
$ExchangeRefreshToken = 'ExchangeRefreshToken'
$UPN = "UPN-Used-To-Generate-Tokens"
$TenantToCheck = 'testtenant.onmicrosoft.com'
$MaximumPhishingAttempts = 100
######### 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 
$token = New-PartnerAccessToken -ApplicationId 'a0c73c16-a7e3-4564-9a95-2bdf47383716'-RefreshToken $ExchangeRefreshToken -Scopes 'https://outlook.office365.com/.default' -Tenant $TenantToCheck -erroraction SilentlyContinue

$tokenValue = ConvertTo-SecureString "Bearer $($token.AccessToken)" -AsPlainText -Force
$credential = New-Object System.Management.Automation.PSCredential($upn, $tokenValue)
write-host "Proccessing $TenantToCheck"
$session = New-PSSession -ConfigurationName Microsoft.Exchange -ConnectionUri "https://ps.outlook.com/powershell-liveid?DelegatedOrg=$($TenantToCheck)&BasicAuthToOAuthConversion=true" -Credential $credential -Authentication Basic -AllowRedirection -ErrorAction SilentlyContinue
$null = Import-PSSession $session -AllowClobber -CommandName 'Get-ATPTotalTrafficReport' -ErrorAction SilentlyContinue
$Reports = Get-ATPTotalTrafficReport -ErrorAction SilentlyContinue
$TenantReports = [PSCustomObject]@{
    TenantDomain       = $TenantToCheck
    TotalSafeLinkCount = ($Reports | where-object { $_.EventType -eq 'TotalSafeLinkCount' }).Messagecount
    TotalSpamCount     = ($Reports | where-object { $_.EventType -eq 'TotalSpamCount' }).Messagecount
    TotalBulkCount     = ($Reports | where-object { $_.EventType -eq 'TotalBulkCount' }).Messagecount
    TotalPhishCount    = ($Reports | where-object { $_.EventType -eq 'TotalPhishCount' }).Messagecount
    TotalMalwareCount  = ($Reports | where-object { $_.EventType -eq 'TotalMalwareCount' }).Messagecount
    DateOfReports      = "$($Reports.StartDate | Select-Object -Last 1) - $($Reports.EndDate | Select-Object -Last 1)"
}
#end of commands
Remove-PSSession $session -ErrorAction SilentlyContinue

$TenantReports | Where-Object {$_.TotalPhishCount -gt $MaximumPhishingAttempts}

Multiple tenant version

This version does the same as above, but then for all tenants under your administration as Microsoft Partner.

######### Secrets #########
$ApplicationId = 'YourAPPID'
$ApplicationSecret = 'Applicationsecret' | ConvertTo-SecureString -AsPlainText -Force
$TenantID = 'YourTenantID'
$RefreshToken = 'RefreshToken'
$ExchangeRefreshToken = 'ExchangeRefreshToken'
$UPN = "UPN-Used-To-Generate-Tokens"
$MaximumPhishingAttempts = 100
######### 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
$TenantReports = foreach ($customer in $customers) {
    $token = New-PartnerAccessToken -ApplicationId 'a0c73c16-a7e3-4564-9a95-2bdf47383716'-RefreshToken $ExchangeRefreshToken -Scopes 'https://outlook.office365.com/.default' -Tenant $customer.TenantId -erroraction SilentlyContinue
    $tokenValue = ConvertTo-SecureString "Bearer $($token.AccessToken)" -AsPlainText -Force
    $credential = New-Object System.Management.Automation.PSCredential($upn, $tokenValue)
    $customerId = $customer.DefaultDomainName
    write-host "Proccessing $customerid"
    $session = New-PSSession -ConfigurationName Microsoft.Exchange -ConnectionUri "https://ps.outlook.com/powershell-liveid?DelegatedOrg=$($customerId)&BasicAuthToOAuthConversion=true" -Credential $credential -Authentication Basic -AllowRedirection -ErrorAction SilentlyContinue
    $null = Import-PSSession $session -AllowClobber -CommandName 'Get-ATPTotalTrafficReport' -ErrorAction SilentlyContinue
    #From here you can enter your own commands
    $Reports = Get-ATPTotalTrafficReport -ErrorAction SilentlyContinue
    [PSCustomObject]@{
        TenantID           = $customer.TenantId
        TenantName         = $customer.name
        TenantDomain       = $customer.DefaultDomainName
        TotalSafeLinkCount = ($Reports | where-object { $_.EventType -eq 'TotalSafeLinkCount' }).Messagecount
        TotalSpamCount     = ($Reports | where-object { $_.EventType -eq 'TotalSpamCount' }).Messagecount
        TotalBulkCount     = ($Reports | where-object { $_.EventType -eq 'TotalBulkCount' }).Messagecount
        TotalPhishCount    = ($Reports | where-object { $_.EventType -eq 'TotalPhishCount' }).Messagecount
        TotalMalwareCount  = ($Reports | where-object { $_.EventType -eq 'TotalMalwareCount' }).Messagecount
        DateOfReports      = "$($Reports.StartDate | Select-Object -Last 1) - $($Reports.EndDate | Select-Object -Last 1)"
    }
    #end of commands
    Remove-PSSession $session -ErrorAction SilentlyContinue
}

$TenantReports | Where-Object {$_.TotalPhishCount -gt $MaximumPhishingAttempts}

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

Automating with PowerShell: Deploying StorageSense

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This is a follow up blog on last weeks blog of monitoring Storage Sense settings; to read about that check out the previous blog here. Monitoring Storage sense can ease your maintenance workload, but you do need a way to deploy StorageSense too.

You can use the script below to deploy storagesense, it even gives you the option to automatically add the OneDrive sites to the StorageSense settings, It’s important to note that StorageSense does not remove cache files that are marked as ‘Always remain offline’ – It only clears the cache for files that are untouched as long as you’ve defined.

Alright, so let’s go to deploying; as before the script uses my RunAsUser module because the StorageSense settings are user based.

The script

Using the script is straightforward; change the deployment settings to your preference, and run the script below. 

#Settings
[PSCustomObject]@{
    PrefSched               = '0' #Options are: 0(Low Diskspace),1,7,30
    ClearTemporaryFiles     = $true
    ClearRecycler           = $true
    ClearDownloads          = $true
    AllowClearOneDriveCache = $true
    AddAllOneDrivelocations = $true
    ClearRecyclerDays       = '60' #Options are: 0(never),1,14,30,60
    ClearDownloadsDays      = '60' #Options are: 0(never),1,14,30,60
    ClearOneDriveCacheDays  = '60' #Options are: 0(never),1,14,30,60

    
} | ConvertTo-Json | Out-File "C:\Windows\Temp\WantedStorageSenseSettings.txt"
#

If (Get-Module -ListAvailable -Name "RunAsUser") { 
    Import-module RunAsUser
}
Else { 
    Install-PackageProvider NuGet -Force
    Set-PSRepository PSGallery -InstallationPolicy Trusted
    Install-Module RunAsUser -force -Repository PSGallery
}

$ScriptBlock = {
    $WantedSettings = Get-Content "C:\Windows\Temp\WantedStorageSenseSettings.txt" | ConvertFrom-Json
    $StorageSenseKeys = 'HKCU:\Software\Microsoft\Windows\CurrentVersion\StorageSense\Parameters\StoragePolicy\'
    Set-ItemProperty -Path $StorageSenseKeys -name '01' -value '1' -Type DWord  -Force
    Set-ItemProperty -Path $StorageSenseKeys -name '04' -value $WantedSettings.ClearTemporaryFiles -Type DWord -Force
    Set-ItemProperty -Path $StorageSenseKeys -name '08' -value $WantedSettings.ClearRecycler -Type DWord -Force
    Set-ItemProperty -Path $StorageSenseKeys -name '32' -value $WantedSettings.ClearDownloads -Type DWord -Force
    Set-ItemProperty -Path $StorageSenseKeys -name '256' -value $WantedSettings.ClearRecyclerDays -Type DWord -Force
    Set-ItemProperty -Path $StorageSenseKeys -name '512' -value $WantedSettings.ClearDownloadsDays -Type DWord -Force
    Set-ItemProperty -Path $StorageSenseKeys -name '2048' -value $WantedSettings.PrefSched -Type DWord -Force
    Set-ItemProperty -Path $StorageSenseKeys -name 'CloudfilePolicyConsent' -value $WantedSettings.AllowClearOneDriveCache -Type DWord -Force
    if ($WantedSettings.AddAllOneDrivelocations) {
        $CurrentUserSID = ([System.Security.Principal.WindowsIdentity]::GetCurrent()).User.Value
        $CurrentSites = Get-ItemProperty 'HKCU:\SOFTWARE\Microsoft\OneDrive\Accounts\Business1\ScopeIdToMountPointPathCache' -ErrorAction SilentlyContinue | Select-Object -Property * -ExcludeProperty PSPath, PsParentPath, PSChildname, PSDrive, PsProvider
        foreach ($OneDriveSite in $CurrentSites.psobject.properties.name) {
            New-Item "$($StorageSenseKeys)/OneDrive!$($CurrentUserSID)!Business1|$($OneDriveSite)" -Force
            New-ItemProperty "$($StorageSenseKeys)/OneDrive!$($CurrentUserSID)!Business1|$($OneDriveSite)" -Name '02' -Value '1' -type DWORD -Force
            New-ItemProperty "$($StorageSenseKeys)/OneDrive!$($CurrentUserSID)!Business1|$($OneDriveSite)" -Name '128' -Value $WantedSettings.ClearOneDriveCacheDays -type DWORD -Force
        }
    }

}

$null = Invoke-AsCurrentUser -ScriptBlock $ScriptBlock -UseWindowsPowerShell -NonElevatedSession

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

Monitoring with PowerShell: Monitoring Storage Sense settings

1 Reply

So let’s talk about Storage Sense. Storage Sense is a new-ish feature in Windows 10 which should replace the standard disk cleanup utilities. It has a lot more power than just disk cleanup as it can detect how long files have been in use and react based on age.

Storage Sense is pretty easy to use and can save a lot of disk space for modern clients, especially when they use OneDrive too. Storage Sense has support for OneDrive files on demand. By default it does not clear anything, but it could be setup to clear the local cache if files have not been in use for days, weeks, or even months. This helps with those pesky OneDrive database size limits.

So the first blog about Storage Senses will be monitoring its optimal settings. We’re using the RunAsUser Module for this, because the registry keys will be located in the HKEY_Current_User hive.

Monitoring script

#Settings
$PrefSched = 'Low Diskspace'
$ClearTemporaryFiles = $true
$ClearRecycler = $true
$ClearRecyclerDays = '60'
$ClearDownloads = $true
$ClearDownloadsDays = '60'
$AllowClearOneDriveCache = $true
#

If (Get-Module -ListAvailable -Name "RunAsUser") { 
    Import-module RunAsUser
}
Else { 
    Install-PackageProvider NuGet -Force
    Set-PSRepository PSGallery -InstallationPolicy Trusted
    Install-Module RunAsUser -force -Repository PSGallery
}


$ExpectedSettings = [PSCustomObject]@{
    'Storage Sense Enabled'         = $true
    'Clear Temporary Files'         = $ClearTemporaryFiles
    'Clear Recycler'                = $ClearRecycler
    'Clear Downloads'               = $ClearDownloads
    'Allow Clearing Onedrive Cache' = $AllowClearOneDriveCache
    'Storage Sense schedule'        = $PrefSched
    'Clear Downloads age (Days)'    = $ClearDownloadsDays
    'Clear Recycler age (Days)'     = $ClearRecyclerDays
} 

$ScriptBlock = {
    $StorageSenseKeys = Get-ItemProperty -Path 'HKCU:\Software\Microsoft\Windows\CurrentVersion\StorageSense\Parameters\StoragePolicy\'

    $StorageSenseSched = switch ($StorageSenseKeys.'2048') {
        1 { 'Weekly' }
        7 { 'Every week' }
        30 { 'Every Month' }
        0 { 'Low Diskspace' }
        Default { 'Unknown - Could not retrieve.' }
    }

    [PSCustomObject]@{
        'Storage Sense Enabled'         = [boolean]$StorageSenseKeys.'01'
        'Clear Temporary Files'         = [boolean]$StorageSenseKeys.'04'
        'Clear Recycler'                = [boolean]$StorageSenseKeys.'08'
        'Clear Downloads'               = [boolean]$StorageSenseKeys.'32'
        'Allow Clearing Onedrive Cache' = [boolean]$StorageSenseKeys.CloudfilePolicyConsent
        'Storage Sense schedule'        = $StorageSenseSched
        'Clear Downloads age (Days)'    = $StorageSenseKeys.'512'
        'Clear Recycler age (Days)'     = $StorageSenseKeys.'256'
    } | ConvertTo-Json | Out-File "C:\windows\Temp\CurrentStorageSenseSettings.txt" -Force

 
}

$null = Invoke-AsCurrentUser -ScriptBlock $ScriptBlock -UseWindowsPowerShell -NonElevatedSession
$CurrentSettings = Get-Content  "C:\windows\Temp\CurrentStorageSenseSettings.txt" | ConvertFrom-Json

$ComparedObjects = Compare-Object $CurrentSettings $ExpectedSettings -Property $CurrentSettings.PsObject.Properties.name

if ($ComparedObjects) {
    Write-Host "Unhealthy - The Storage Sense settings are not the same as the expected settings."
}
else {
    write-host "Healthy - Storage Sense Settings are set correctly."
}

And that’s it. Next week I’ll be demonstrating how to setup Storage Sense automatically, including adding OneDrive sites. As always, Happy PowerShelling!

Ending the year with PowerShell: Retrospective

1 Reply

I always like December because everyone gets all in the mood to do these retrospectives; and 2020 was crazy for everyone! for my personally it had a heavy loss, but also a lot of positivity. I enjoy looking at the raw numbers to see how far I’ve gotten.

So, show me the numbers!

  • 1 Microsoft MVP Award (and still amazed at it!)
  • 1 MSP(that I know of) that says I’ve saved their business
  • 2 blogs a week, a total of 100 so far this year. 🙂
  • 4 MSP community and business awards.
  • 5 RMM vendors that are implementing my blogs into their products.
  • 19 webinars I joined/led and had so much fun with, Special thanks to the last ones I did this year with Huntress.
  • 15000+ people that watched these webinars.
  • 1254 e-mails from other MSPs, asking for advice, support, or just thank you messages.
  • 400+ MSPs that installed one or more of my Azure Functions
  • 7000+ upvotes on reddit posts relating to MSP stuff 🙂
  • Almost 300000 downloads of my PowerShell modules on the PowerShell Gallery this year!
  • 1.7+ million unique hits on CyberDrain.com!

So what’s next?

Well, I have some time off planned for 3 weeks so you’ll all have to miss me for a little while. I will still but blogging but not on my normal schedule of 2 blogs a week. In the coming year I’m going to be working to bring even more value to both my own MSP and others by trying to break open automation for everyone. I also have plans to create a cool educational Capture the Flag competition for Managed Service providers and/or general System Administration, next to of course my regular blogging and normal community efforts.

I’m also working with Datto to look into a vendor neutral automation/RMM user group and of course I have bigger projects like AzPAM that need some love.

I’m not done blogging by far, and I’m still super excited for what’s to come and the feedback I get from the MSP community is immense. I try to respond to all of your e-mails and messages but don’t always get the chance. I’d like to take this moment to thank you all and hope to see you again next year!

Special end of year thanks

I did the same last year and think it should become a little bit of a regular thing. For this entire year I’d like to thank my darling wife for putting up with me of course, my partners at Lime Networks and others in no particular order;

My friends at Datto: Thank you for our cooperation. I really love seeing vendors that actually love their products and that is so true on the RMM side. 🙂

My friends at Solarwinds: Mostly for the N-Central/RMM upper-management team; I had too much laughs and funs doing the MSP Masterclasses this year. Hopefully next year we can make just as much fun! I’m also going to show up on Luis’s Café Con Luis soon!

MSPGeek and MSPRU: Thanks for all community members. I love talking to you all 🙂

and a direct, and very special thanks to the following people, whom I’m able to call my friends; Jonathan Crowe, Kyle Hanslovan, Gavin Stone, Stan Lee, Maarten, Nick, Aad and of course everyone else I work closely with. 🙂

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

Monitoring with PowerShell: Typosquat domain checking

3 Replies

One of my team members was following Blackhat today and showed me a pretty cool tool they demonstrated during the conference. The presenters showed a method of checking if your O365 domain was being Typosquated. The tool can be found here. The presenters made a Python tool, and I figured to create an alternative in PowerShell.

I’ve checked their method and found they use two different typosquating detection techniques; they’ve applied homoglyphs and BitSquating. These two techniques are most common in Typosquats, its either replacing characters with similar looking ones, or minor typos in the URL.

In my version, I’ve also introduced pluralization and omission, just to get a bit more domain names, I’m not saying this is a 100% extensive list. If you have any suggested changes feel free to make a GitHub PR here.

The script

To run the script, simply change the domain name at the end of the script and execute it. The script contains two functions; New-TypoSquatDomain which generate a list of typosquated domains and Get-O365TypoSquats which checks if the .onmicrosoft.com, .sharepoint.com and the domain itself are available.

So what can you do with this information? if the .onmicrosoft.com version exists, you can add this to your spamfilter to prevent spam, If the .sharepoint.com version exist people might be phishing you using SharePoint online URLS, and if the domain exists you could add it to the spamfilter or check what’s running there and notify your users.

function New-TypoSquatDomain {
    param (
        $DomainName
    )
    $ReplacementGylph = [pscustomobject]@{
        0  = 'b', 'd' 
        1  = 'b', 'lb' 
        2  = 'c', 'e'
        3  = 'd', 'b'
        4  = 'd', 'cl'
        5  = 'd', 'dl' 
        6  = 'e', 'c' 
        7  = 'g', 'q' 
        8  = 'h', 'lh' 
        9  = 'i', '1'
        10 = 'i', 'l' 
        11 = 'k', 'lk'
        12 = 'k', 'ik'
        13 = 'k', 'lc' 
        14 = 'l', '1'
        15 = 'l', 'i' 
        16 = 'm', 'n'
        17 = 'm', 'nn'
        18 = 'm', 'rn'
        19 = 'm', 'rr' 
        20 = 'n', 'r'
        21 = 'n', 'm'
        22 = 'o', '0'
        23 = 'o', 'q'
        24 = 'q', 'g' 
        25 = 'u', 'v' 
        26 = 'v', 'u'
        27 = 'w', 'vv'
        28 = 'w', 'uu' 
        29 = 'z', 's' 
        30 = 'n', 'r' 
        31 = 'r', 'n'
    }
    $i = 0

    $TLD = $DomainName -split '\.' | Select-Object -last 1
    $DomainName = $DomainName -split '\.' | Select-Object -First 1
    $HomoGlyph = do {
        $NewDomain = $DomainName -replace $ReplacementGylph.$i
        $NewDomain
        $NewDomain + 's'
        $NewDomain + 'a'
        $NewDomain + 't'
        $NewDomain + 'en'
        $i++
    } while ($i -lt 29)

    $i = 0
    $BitSquatAndOmission = do {
        $($DomainName[0..($i)] -join '') + $($DomainName[($i + 2)..$DomainName.Length] -join '')
        $($DomainName[0..$i] -join '') + $DomainName[$i + 2] + $DomainName[$i + 1] + $($DomainName[($i + 3)..$DomainName.Length] -join '')
        $i++
    } while ($i -lt $DomainName.Length)
    $Plurals = $DomainName + 's'; $DomainName + 'a'; $domainname + 'en' ;  ; $DomainName + 't'

    $CombinedDomains = $HomoGlyph + $BitSquatAndOmission + $Plurals | ForEach-Object { "$($_).$($TLD)" }
    return ( $CombinedDomains | Sort-Object -Unique | Where-Object { $_ -ne $DomainName })
}

function Get-O365TypoSquats {
    param (
        $TypoSquatedDomain
    )
    $DomainWithoutTLD = $TypoSquatedDomain -split '.' | Select-Object -First 1
    $DomainTest = Resolve-DnsName -Type A "$($TypoSquatedDomain)" -ErrorAction SilentlyContinue
    $Onmicrosoft = Resolve-DnsName -Type A "$($DomainWithoutTLD).onmicrosoft.com" -ErrorAction SilentlyContinue
    $Sharepoint = Resolve-DnsName -Type A "$($DomainWithoutTLD).sharepoint.com" -ErrorAction SilentlyContinue
    [PSCustomObject]@{
        'Onmicrosoft test' = [boolean]$Onmicrosoft
        'Sharepoint test'  = [boolean]$Sharepoint
        'Domain test'      = [boolean]$DomainTest
        Domain             = $TypoSquatedDomain
    }
}

New-TypoSquatDomain -DomainName 'Google.com' | ForEach-Object { Get-O365TypoSquats -TypoSquatedDomain $_ }

You can load this script into your RMM system and alert whenever results are found.

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

Automating with PowerShell: Adding domains to IT-Glue programmatically.

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So ITGlue is a great application and has a lot of API’s available. Unfortunately there is no API to add domains or SSL certificates to IT-Glue. Seeing as I have a couple of sources where domains and SSL certificates come from I’d still like to add them programmatically.

To do this, I’ve created the small function below. It uses the Chrome cookies to login to the ITGlue webpage instead and commit a new domain. It’s quite hacky but works wonders when you need to grab data from a lot of different systems and smush them together in IT-Glue.

You could make some modifications to do this for other non-API available endpoints such as Documents, or SSL certificates. 

<#
.SYNOPSIS
    Creates ITG domains using the current ITG cookie
.DESCRIPTION
    A method to create ITGlue domains by abusing the cooking and commiting the normal form workflow. This is due to no Domain API is currently available. The function expects you to be logged into ITGlue using Chrome as your browser.
.EXAMPLE
    PS C:\> New-ITGDomain -OrgID 12345 -DomainName 'example.com' -ITGURL 'Yourcompany.Itglue.com'
    Creates a new ITGlue domain example.com in organisation 12345 for the ITglue YourCompany.ITGlue.com. Please note to *not* use the API URL in this case.
.INPUTS
    OrgID = Organisation ID in IT-Glue
    DomainName = Domain name you wish to add.
    ITGURL = The normal access URL to your IT-Glue instance.
.OUTPUTS
    Fail/Success
.NOTES
   No notes
#>
function New-ITGDomain {
    param (
        [string]$OrgID,
        [string]$DomainName,
        [string]$ITGURL
    )
    $ChromeCookieviewPath = "$($ENV:TEMP)/Chromecookiesview.zip"
    if (!(Test-Path $ChromeCookieviewPath)) {
        write-host "Downloading ChromeCookieView" -ForegroundColor Green
        Invoke-WebRequest 'https://www.nirsoft.net/utils/chromecookiesview.zip' -UseBasicParsing -OutFile $ChromeCookieviewPath
        Expand-Archive -path $ChromeCookieviewPath -DestinationPath  "$($ENV:TEMP)" -Force
    }
    Start-Process -FilePath "$($ENV:TEMP)/Chromecookiesview.exe" -ArgumentList "/scomma $($ENV:TEMP)/chromecookies.csv"
    start-sleep 1
    $Cookies = import-csv "$($ENV:TEMP)/chromecookies.csv"
    write-host "Grabbing Chrome Cookies" -ForegroundColor Green
    $hosts = $cookies | Where-Object { $_.'host name' -like '*ITGlue*' }

    write-host "Found cookies. Trying to create request" -ForegroundColor Green
    write-host "Grabbing ITGlue session" -ForegroundColor Green
    $null = Invoke-RestMethod -uri "https://$($ITGURL)/$($orgid)/domains/new" -Method GET -SessionVariable WebSessionITG
    foreach ($CookieFile in $hosts) {
        $cookie = New-Object System.Net.Cookie     
        $cookie.Name = $cookiefile.Name
        $cookie.Value = $cookiefile.Value
        $cookie.Domain = $cookiefile.'Host Name'
        $WebSessionITG.Cookies.Add($cookie)
    }
    write-host "Grabbing ITGlue unique token" -ForegroundColor Green
    $AuthToken = (Invoke-RestMethod -uri "https://$($ITGURL)/$($orgid)/domains/new" -Method GET -WebSession $WebSessionITG) -match '.*csrf-token"'
    $Token = $matches.0 -split '"' | Select-Object -Index 1
    write-host "Creating domain" -ForegroundColor Green
    $Result = Invoke-RestMethod -Uri "https://$($ITGURL)/$($orgid)/domains?submit=1" -Method "POST" -ContentType "application/x-www-form-urlencoded"   -Body "utf8=%E2%9C%93&authenticity_token=$($Token)&domain%5Bname%5D=$($DomainName)&domain%5Bnotes%5D=&amp;domain%5Baccessible_option%5D=all&domain%5Bresource_access_group_ids%5D%5B%5D=&domain%5Bresource_access_accounts_user_ids%5D%5B%5D=&commit=Save" -WebSession $WebSessionITG
    if ($Result -like "*Domain has been created successfully.*") {
        write-host "Succesfully created domain $DomainName for $OrgID" -ForegroundColor Green
    }
    else {
        write-host "Failed to create $DomainName for $orgid" -ForegroundColor Red
    }
}

Automating with PowerShell: Joining teams meetings with a code

2 Replies

In one of the MSP communities I’m in recently the following question was asked;

Is it possible to join Microsoft Teams meeting in the same way as Webex and Zoom meetings; with just a code?

Question asked in https://msp.zone

I was actually surprised this wasn’t possible; you can join the meetings via phone with an access code but there’s no website to enter a meeting ID and just join it. I’ve decided to make this an option. For this I’ve made TeamsCodeJoiner. TeamsCodeJoiner is a Azure hosted function which allows you to create and join meetings simply by using a code.

So far; the functionality is pretty basic and more akin to a URL shortening tool, but I’m working on more functionality such as creating a code for each meeting created and letting the user known their unique access code. You can even customize the function with a custom domain; users could go to Join.yourcompanyname.com and enter the code, making joining meetings a lot easier from any device instead of having to have the URL.

Deploying the Azure Function is straight-forward, either press the Deploy with Azure button below or check the code yourself on Github and create the function by hand. In regards to costs; this will be a couple of cents a month, or a dollar if used a lot. :).

So how does this look in production? below are some screenshots;

I hope you’ll enjoy this and as always, Happy PowerShelling!

Automating with PowerShell: Backup Teams Chats

2 Replies

I’ve recently had a small discussion with a friend that is using Teams as his primary collaboration platform, just like our MSP does internally. He told me that the only thing that he is really missing is a backup feature of Teams chats. He often deletes entire teams or channels after a project finishes but his backup product only has the ability to backup files and folders inside of the Teams Sharepoint site.

So to help him out I’ve written the script below, the script goes over all the teams in your tenant, and backups the chat per-channel. It makes a HTML file in a reverse read order (So the top most message is the most recent one).

Permissions

As with most of my Office365 scripts; you’ll need the Secure Application Model with some added permissions. For the permissions, perform the following:

  • 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 “Channel” and click on “Channel.Basic.ReadAll and “ChannelMessage.Read.All”. Click on add permission.
  • Do the same for “Delegate Permissions”.
  • Finally, click on “Grant Admin Consent for Company Name.

The Script

So its important to note that the Graph API is pretty limited when it comes to reading Teams messages; Getting channel messages are limited to 5 requests per second. In my experience this limit is even lower at times. If you’re getting rate limitation errors its best to increase the timeout a bit. 🙂

The script writes HTML files for each backup, it does not use PsWriteHTML like normally because that doesn’t like to have HTML inside of the tables, and most teams messages are HTML.

######### Secrets #########
$ApplicationId = 'YourAppID'
$ApplicationSecret = 'YourAppSecret' | ConvertTo-SecureString -Force -AsPlainText
$TenantIDToBackup = 'TenantToBackup.onmicrosoft.com'
$RefreshToken = 'VeryLongRefreshToken.'
######## Secrets #########
$credential = New-Object System.Management.Automation.PSCredential($ApplicationId, $ApplicationSecret)
$graphToken = New-PartnerAccessToken -ApplicationId $ApplicationId -Credential $credential -RefreshToken $refreshToken -Scopes 'https://graph.microsoft.com/.default' -ServicePrincipal -Tenant $TenantIDToBackup
$Header = @{
    Authorization = "Bearer $($graphToken.AccessToken)"
}
$BaseURI = "https://graph.microsoft.com/beta"
$AllMicrosoftTeams = (Invoke-RestMethod -Uri  "$($BaseURI)/groups?`$filter=resourceProvisioningOptions/Any(x:x eq 'Team')" -Headers $Header -Method Get -ContentType "application/json").value


$head = @"
<script>
function myFunction() {
    const filter = document.querySelector('#myInput').value.toUpperCase();
    const trs = document.querySelectorAll('table tr:not(.header)');
    trs.forEach(tr => tr.style.display = [...tr.children].find(td => td.innerHTML.toUpperCase().includes(filter)) ? '' : 'none');
  }</script>
<Title>LNPP - Lime Networks Partner Portal</Title>
<style>
body { background-color:#E5E4E2;
      font-family:Monospace;
      font-size:10pt; }
td, th { border:0px solid black; 
        border-collapse:collapse;
        white-space:pre; }
th { color:white;
    background-color:black; }
table, tr, td, th {
     padding: 2px; 
     margin: 0px;
     white-space:pre; }
tr:nth-child(odd) {background-color: lightgray}
table { width:95%;margin-left:5px; margin-bottom:20px; }
h2 {
font-family:Tahoma;
color:#6D7B8D;
}
.footer 
{ color:green; 
 margin-left:10px; 
 font-family:Tahoma;
 font-size:8pt;
 font-style:italic;
}
#myInput {
  background-image: url('https://www.w3schools.com/css/searchicon.png'); /* Add a search icon to input */
  background-position: 10px 12px; /* Position the search icon */
  background-repeat: no-repeat; /* Do not repeat the icon image */
  width: 50%; /* Full-width */
  font-size: 16px; /* Increase font-size */
  padding: 12px 20px 12px 40px; /* Add some padding */
  border: 1px solid #ddd; /* Add a grey border */
  margin-bottom: 12px; /* Add some space below the input */
}
</style>
"@
   

foreach ($Team in $AllMicrosoftTeams) {
    $TeamsChannels = (Invoke-RestMethod -Uri "$($BaseURI)/teams/$($Team.id)/channels" -Headers $Header -Method Get -ContentType "application/json").value
    foreach ($Channel in $TeamsChannels) {
        $i = 100

        $MessagesRaw = do {
            if (!$MessageURI) { $MessageURI = "$($BaseURI)/teams/$($Team.id)/channels/$($channel.id)/messages?`$top=100" }
            $MessagePage = (Invoke-RestMethod -Uri $MessageURI -Headers $Header -Method Get -ContentType "application/json" -ErrorAction SilentlyContinue)
            $MessageURI = $Messagepage.'@odata.nextlink'
            $Messagepage.value
            write-host "Got $i messages for $($team.displayName) / $($channel.Displayname)"
            $i = $i + 100
            start-sleep 10
        } while ($Messagepage.'@OData.nextlink')
        $MessagesHTML = $Messages | Select-Object  @{label = 'Created on'; expression = { [datetime]$_.CreatedDateTime } },
        @{label = 'From'; expression = { $_.from.user.displayname } },
        @{label = 'Message'; expression = { $_.body.content } },
        @{label = 'Message URL'; expression = { $_.body.weburl } } | ConvertTo-Html -Head $head
        [System.Web.HttpUtility]::HtmlDecode($MessagesHTML) | out-file "C:\temp\$($Team.displayName) - $($Channel.displayName).html"

    } 

     
}

So how does this look? Well; if all goes well the HTML files looks something like this;

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