functions/Get-DbaNetworkActivity.ps1
function Get-DbaNetworkActivity { <# .SYNOPSIS Gets the Current traffic on every Network Interface on a computer. .DESCRIPTION Gets the Current traffic on every Network Interface on a computer. See https://msdn.microsoft.com/en-us/library/aa394293(v=vs.85).aspx Requires Local Admin rights on destination computer(s). .PARAMETER ComputerName The SQL Server (or server in general) that you're connecting to. This command handles named instances. .PARAMETER Credential Credential object used to connect to the computer as a different user. .PARAMETER EnableException By default, when something goes wrong we try to catch it, interpret it and give you a friendly warning message. This avoids overwhelming you with "sea of red" exceptions, but is inconvenient because it basically disables advanced scripting. Using this switch turns this "nice by default" feature off and enables you to catch exceptions with your own try/catch. .NOTES Author: Klaas Vandenberghe ( @PowerDBAKlaas ) Tags: Network dbatools PowerShell module (https://dbatools.io) Copyright: (c) 2018 by dbatools, licensed under MIT License: MIT https://opensource.org/licenses/MIT .LINK https://dbatools.io/Get-DbaNetworkActivity .EXAMPLE Get-DbaNetworkActivity -ComputerName sqlserver2014a Gets the Current traffic on every Network Interface on computer sqlserver2014a. .EXAMPLE 'sql1','sql2','sql3' | Get-DbaNetworkActivity Gets the Current traffic on every Network Interface on computers sql1, sql2 and sql3. .EXAMPLE Get-DbaNetworkActivity -ComputerName sql1,sql2 | Out-Gridview Gets the Current traffic on every Network Interface on computers sql1 and sql2, and shows them in a grid view. #> [CmdletBinding()] param ( [parameter(ValueFromPipeline)] [Alias("cn", "host", "Server")] [string[]]$ComputerName = $env:COMPUTERNAME, [PSCredential] $Credential, [Alias('Silent')] [switch]$EnableException ) begin { $ComputerName = $ComputerName | ForEach-Object {$_.split("\")[0]} | Select-Object -Unique $sessionoption = New-CimSessionOption -Protocol DCom } process { foreach ($computer in $ComputerName) { $Server = Resolve-DbaNetworkName -ComputerName $Computer -Credential $credential if ( $Server.FullComputerName ) { $Computer = $server.FullComputerName Write-Message -Level Verbose -Message "Creating CIMSession on $computer over WSMan" $CIMsession = New-CimSession -ComputerName $Computer -ErrorAction SilentlyContinue -Credential $Credential if ( -not $CIMSession ) { Write-Message -Level Verbose -Message "Creating CIMSession on $computer over WSMan failed. Creating CIMSession on $computer over DCom" $CIMsession = New-CimSession -ComputerName $Computer -SessionOption $sessionoption -ErrorAction SilentlyContinue -Credential $Credential } if ( $CIMSession ) { Write-Message -Level Verbose -Message "Getting properties for Network Interfaces on $computer" $NICs = Get-CimInstance -CimSession $CIMSession -ClassName Win32_PerfFormattedData_Tcpip_NetworkInterface $NICs | Add-Member -Force -MemberType ScriptProperty -Name ComputerName -Value { $computer } $NICs | Add-Member -Force -MemberType ScriptProperty -Name Bandwith -Value { switch ( $this.CurrentBandWidth ) { 10000000000 { '10Gb' } 1000000000 { '1Gb' } 100000000 { '100Mb' } 10000000 { '10Mb' } 1000000 { '1Mb' } 100000 { '100Kb' } default { 'Low' } } } foreach ( $NIC in $NICs ) { Select-DefaultView -InputObject $NIC -Property 'ComputerName', 'Name as NIC', 'BytesReceivedPersec', 'BytesSentPersec', 'BytesTotalPersec', 'Bandwidth'} } #if CIMSession else { Write-Message -Level Warning -Message "Can't create CIMSession on $computer" } } #if computername else { Write-Message -Level Warning -Message "can't connect to $computer" } } #foreach computer } #PROCESS } #function |