we monitor tasks from multiple servers, the following script collect the repetition of each task. this helps automation when rolling out scripts in PROD env.
$ScheduledTasks = get-scheduledtask
Write-Host "Task;Repetition"
$data = foreach ($item in $ScheduledTasks) {
[string]$Name = ($item.TaskName)
[string]$Repetition = ($item.Triggers.Repetition | select -ExpandProperty interval)
[PSCustomObject]#{
'Name' = $Name
'Repetition' = $Repetition
}}
$data | foreach-object {write-output "$($_.Name); $($_.Repetition)"}
somehow this does not collect all tasks, but only the ones from the se two subfolders. can you help understanding why it is not collecting from Task Scheduler Library?
Related
Abstract
So I work for a company that has roughly 10k computer assets on my domain. My issue is the time it takes to query if a user exists on a computer to see if they've ever logged into said computer. We need this functionality for audits in case they've done something they shouldn't have.
I have two methods in mind I've researched to complete this task, and a third alternative solution I have not thought of;
-Method A: Querying every computer for the "C:\Users<USER>" to see if LocalPath exists
-Method B: Checking every computer registry for the "HKU:<SID>" to see if the SID exists
-Method C: You are all smarter than me and have a better way? XD
Method A Function
$AllCompFound = #()
$AllADComputer = Get-ADComputer -Properties Name -SearchBase "WhatsItToYa" -filter 'Name -like "*"' | Select-Object Name
ForEach($Computer in $AllADComputers) {
$CName = $Computer.Name
if (Get-CimInstance -ComputerName "$CName" -ClassName Win32_Profile | ? {"C:\Users\'$EDIPI'" -contains $_.LocalPath}) {
$AllCompFound += $CName
} else {
#DOOTHERSTUFF
}
}
NOTE: I have another function that prompts me to enter a username to check for. Where I work they are numbers so case sensitivity is not an issue. My issue with this function is I believe it is the 'if' statement returns true every time because it ran rather than because it matched the username.
Method B Function
$AllCompFound = #()
$AllADComputer = Get-ADComputer -Properties Name -SearchBase "WhatsItToYa" -filter 'Name -like "*"' | Select-Object Name
$hive = [Microsoft:Win32.RegistryHive]::Users
ForEach($Computer in $AllADComputers) {
try {
$base = [Microsoft.Win32.RegistryKey]::OpenRemoteBaseKey($hive, $Computer.Name)
$key = &base.OpenSubKey($strSID)
if ($!key) {
#DOSTUFF
} else {
$AllCompFound += $Computer.Name
#DOOTHERSTUFF
}
} catch {
#IDONTTHROWBECAUSEIWANTITTOCONTINUE
} finally {
if($key) {
$key.Close()
}
if ($base) {
$base.Close()
}
}
}
NOTE: I have another function that converts the username into a SID prior to this function. It works.
Where my eyes start to glaze over is using Invoke-Command and actually return a value back, and whether or not to run all of these queries as their own PS-Session or not. My Method A returns false positives and my Method B seems to hang up on some computers.
Neither of these methods are really fast enough to get through 10k results, I've been using smaller pools of computers in order to get test these results when requested. I'm by no means an expert, but I think I have a good understanding, so any help is appreciated!
First, use WMI Win32_UserProfile, not C:\Users or registry.
Second, use reports from pc to some database, not from server to pc. This is much better usually.
About GPO: If you get access, you can Add\Remove scheduled task for such reports through GPP (not GPO) from time to time.
Third: Use PoshRSJob to make parallel queries.
Get-WmiObject -Class 'Win32_USerProfile' |
Select #(
'SID',
#{
Name = 'LastUseTime';
Expression = {$_.ConvertToDateTime($_.LastUseTime)}}
#{
Name = 'NTAccount';
Expression = { [System.Security.Principal.SecurityIdentifier]::new($_.SID).Translate([System.Security.Principal.NTAccount])}}
)
Be careful with translating to NTAccount: if SID does not translates, it will cause error, so, maybe, it's better not to collect NTAccount from user space.
If you have no other variants, parallel jobs using PoshRSJob
Example for paralleling ( maybe there are some typos )
$ToDo = [System.Collections.Concurrent.ConcurrentQueue[string]]::new() # This is Queue (list) of computers that SHOULD be processed
<# Some loop through your computers #>
<#...#> $ToDo.Enqueue($computerName)
<#LoopEnd#>
$result = [System.Collections.Concurrent.ConcurrentBag[Object]]::new() # This is Bag (list) of processing results
# This function has ComputerName on input, and outputs some single value (object) as a result of processing this computer
Function Get-MySpecialComputerStats
{
Param(
[String]$ComputerName
)
<#Some magic#>
# Here we make KSCustomObject form Hashtable. This is result object
return [PSCustomObject]#{
ComputerName = $ComputerName;
Result = 'OK'
SomeAdditionalInfo1 = 'whateverYouWant'
SomeAdditionalInfo2 = 42 # Because 42
}
}
# This is script that runs on background. It can not output anything.
# It takes 2 args: 1st is Input queue, 2nd is output queue
$JobScript = [scriptblock]{
$inQueue = [System.Collections.Concurrent.ConcurrentQueue[string]]$args[0]
$outBag = [System.Collections.Concurrent.ConcurrentBag[Object]]$args[1]
$compName = $null
# Logging inside, if you need it
$log = [System.Text.StringBuilder]::new()
# we work until inQueue is empty ( then TryDequeue will return false )
while($inQueue.TryDequeue([ref] $compName) -eq $true)
{
$r= $null
try
{
$r = Get-MySpecialComputerStats -ComputerName $compName -EA Stop
[void]$log.AppendLine("[_]: $($compName) : OK!")
[void]$outBag.Add($r) # We append result to outBag
}
catch
{
[void]$log.AppendLine("[E]: $($compName) : $($_.Exception.Message)")
}
}
# we return log.
return $log.ToString()
}
# Some progress counters
$i_max = $ToDo.Count
$i_cur = $i_max
# We start 20 jobs. Dont forget to say about our functions be available inside job
$jobs = #(1..20) <# Run 20 threads #> | % { Start-RSJob -ScriptBlock $JobScript -ArgumentList #($ToDo, $result) -FunctionsToImport 'Get-MySpecialComputerStats' }
# And once per 3 seconds we check, how much entries left in Queue ($todo)
while ($i_cur -gt 0)
{
Write-Progress -Activity 'Working' -Status "$($i_cur) left of $($i_max) computers" -PercentComplete (100 - ($i_cur / $i_max * 100))
Start-Sleep -Seconds 3
$i_cur = $ToDo.Count
}
# When there is zero, we shall wait for jobs to complete last items and return logs, and we collect logs
$logs = $jobs | % { Wait-RSJob -Job $_ } | % { Receive-RSJob -Job $_ }
# Logs is LOGS, not result
# Result is in the result variable.
$result | Export-Clixml -Path 'P:/ath/to/file.clixml' # Exporting result to CliXML file, or whatever you want
Please be careful: there is no output inside $JobScript done, so it must be perfectly done, and function Get-MySpecialComputerStats must be tested on unusual ways to return value that can be interpreted.
I want to parallelize information gathering in my PS scripts.
My scripts usually do something along the lines of
foreach ($system in $systemlist) {
$system = Add-InformationToServerObj $system
}
and thus the $systemlist gets populated with more information which later gets used.
How can such a task which requires saving output to one shared list/array be parallelized?
Start-Job is an option, but it's quite high overhead in processing time since each job kicks of a new process and data will have to be serialized between the parent process and the job process.
Use Runspaces instead:
# Create initial sessionstate object for the runspaces
$InitialSessionState = [initialsessionstate]::Create()
# Import module that contains Add-InformationToServerObj
$InitialSessionState.ImportPSModule("InformationModule")
# Create and open the runspacepool
$RunspacePool = [runspacefactory]::CreateRunspacePool($InitialSessionState)
$RunspacePool.Open()
# Create a new PowerShell instance per "job", collect these along with the IAsyncResult handle (we'll need it later)
$Jobs = foreach($system in $systemlist)
{
$PSInstance = [powershell]::Create()
[void]$PSInstance.AddCommand('Add-InformationToServerObj').AddArgument($system)
New-Object psobject -Property #{
Instance = $PSInstance
IAResult = $PSInstance.BeginInvoke()
}
}
# Wait for runspaces to complete
while($InProgress = #($Jobs |Where-Object {-not $_.IAResult.IsCompleted})){
# Here you could also use Write-Progress
Write-Host "$($InProgress.Count) jobs still in progress..."
Start-Sleep -Milliseconds 500
}
# Collect the output
$systemlist = foreach($Job in $Jobs)
{
$Job.Instance.EndInvoke($Job.IAResult)
}
# Dispose of the runspacepool
$RunspacePool.Dispose()
The above is a very basic example and has zero error handling - consider using something like Invoke-Parallel or PoshRSJobs instead (PoshRSJobs can also be found on the gallery)
use this :
foreach ($system in $systemlist) {
start-job -scriptblock{$system = Add-InformationToServerObj $system }
}
I use the funtion foreach-parallel for run many scriptblock like runspace
the first load snapin correctly but all next return 2 error
1..5 | Foreach-Parallel -Throttle 5 -Timeout 5 -sleeptimer 5 {
add-PSSnapin 'Quest.ActiveRoles.ADManagement'
try {
get-qadUser 'Domain\me'
} catch {
return "$($Error[0].Exception)"
}
}
my errors is :
add-PSSnapin : An item with the same key has already been added
get-qadUser : function doesn't exist
In runspacePool the command Add-PSSnapin and Import-Module doesn't work !
It's need to add in Initial Default State not in ScriptBlock:
$ISS = [system.management.automation.runspaces.initialsessionstate]::CreateDefault()
[void]$ISS.ImportPSSnapIn('Quest.ActiveRoles.ADManagement', [ref]$null)
[void]$ISS.ImportPSModule('PSTerminalServices')
$RunspacePool = [runspacefactory]::CreateRunspacePool(1, $MaxThreads, $ISS, $Host)
$RunspacePool.Open()
I made a comment above on what I think you should do but to clarify you will want to ensure the snapin is loaded before your call so make sure its executed before you run your Foreach-parallel.
add-PSSnapin 'Quest.ActiveRoles.ADManagement'
Foreach-Parallel -Throttle 5 -Timeout 5 -sleeptimer 5 {
get-qadUser 'domain\testUser'
}
There is an easy way to test for a cmdlet and if not found add the PSSnapin or Import-Module
Adding the below to the start of your script will check for the presence of a CMDLET and if not found, add it.
IF(
Get-Command get-qadUser -ErrorAction SilentlyContinue){}
ELSE{add-PSSnapin 'Quest.ActiveRoles.ADManagement'}
Finaly I use another code, I use like that :
$Servers | Run-Parallel -scriptBlock $ScriptBlock -TimeOut 10 -PSModules 'PSTerminalServices' -PSSnapins 'Quest.ActiveRoles.ADManagement' | out-gridView
complet code
function Run-Parallel {
<#
.Synopsis
This is a quick and open-ended script multi-threader searcher
http://www.get-blog.com/?p=189#comment-28834
Improove by Alban LOPEZ 2016
.Description
This script will allow any general, external script to be multithreaded by providing a single
argument to that script and opening it in a seperate thread. It works as a filter in the
pipeline, or as a standalone script. It will read the argument either from the pipeline
or from a filename provided. It will send the results of the child script down the pipeline,
so it is best to use a script that returns some sort of object.
Authored by Ryan Witschger - http://www.Get-Blog.com
.PARAMETER ScriptBlock
This is where you provide the PowerShell ScriptBlock that you want to multithread.
.PARAMETER ItemObj
The ItemObj represents the arguments that are provided to the child script. This is an open ended
argument and can take a single object from the pipeline, an array, a collection, or a file name. The
multithreading script does it's best to find out which you have provided and handle it as such.
If you would like to provide a file, then the file is read with one object on each line and will
be provided as is to the script you are running as a string. If this is not desired, then use an array.
.PARAMETER InputParam
This allows you to specify the parameter for which your input objects are to be evaluated. As an example,
if you were to provide a computer name to the Get-Process cmdlet as just an argument, it would attempt to
find all processes where the name was the provided computername and fail. You need to specify that the
parameter that you are providing is the "ComputerName".
.PARAMETER AddParam
This allows you to specify additional parameters to the running command. For instance, if you are trying
to find the status of the "BITS" service on all servers in your list, you will need to specify the "Name"
parameter. This command takes a hash pair formatted as follows:
#{"key" = "Value"}
#{"key1" = "Value"; "key2" = 321; "key3" = 1..9}
.PARAMETER AddSwitch
This allows you to add additional switches to the command you are running. For instance, you may want
to include "RequiredServices" to the "Get-Service" cmdlet. This parameter will take a single string, or
an aray of strings as follows:
"RequiredServices"
#("RequiredServices", "DependentServices")
.PARAMETER MaxThreads
This is the maximum number of threads to run at any given time. If resources are too congested try lowering
this number. The default value is 20.
.PARAMETER SleepTimer
This is the time between cycles of the child process detection cycle. The default value is 200ms. If CPU
utilization is high then you can consider increasing this delay. If the child script takes a long time to
run, then you might increase this value to around 1000 (or 1 second in the detection cycle).
.PARAMETER TimeOut
this is the timeOut for slower instance, only each other are returned
.PARAMETER PSModules
List of PSModule name to include for use in ScriptBlock
.PARAMETER PSSapins
List of PSSapin name to include for use in ScriptBlock
.EXAMPLE
Both of these will execute the scriptBlock and provide each of the server names in AllServers.txt
while providing the results to GridView. The results will be the output of the child script.
gc AllServers.txt | Run-Parallel $ScriptBlock_GetTSUsers -MaxThreads $findOut_AD.ActiveDirectory.Servers.count -PSModules 'PSTerminalServices' | out-gridview
#>
Param(
[Parameter(ValueFromPipeline=$true,ValueFromPipelineByPropertyName=$true)]
$ItemObj,
[ScriptBlock]$ScriptBlock = $null,
$InputParam = $Null,
[HashTable] $AddParam = #{},
[Array] $AddSwitch = #(),
$MaxThreads = 20,
$SleepTimer = 200,
$TimeOut = 5,
[string[]]$PSSapins = $null,
[string[]]$PSModules = $null
)
Begin{
$ISS = [system.management.automation.runspaces.initialsessionstate]::CreateDefault()
ForEach ($Snapin in $PSSapins){
[void]$ISS.ImportPSSnapIn($Snapin, [ref]$null)
}
ForEach ($Module in $PSModules){
[void]$ISS.ImportPSModule($Module)
}
$RunspacePool = [runspacefactory]::CreateRunspacePool(1, $MaxThreads, $ISS, $Host)
$RunspacePool.Open()
$Jobs = #()
if ($CommonObject.Settings.Debug) {$CommonObject.host.ui.WriteLine("[ Start ] :")}
}
Process{
Write-Progress -Activity "Preloading Threads" -Status "Starting Job $($jobs.count)"
#ForEach ($Object in $ItemObj){
if ($ItemObj){
$PowershellThread = [powershell]::Create().AddScript($ScriptBlock)
If ($InputParam -ne $Null){
$PowershellThread.AddParameter($InputParam, $ItemObj.ToString()) | out-null
}Else{
$PowershellThread.AddArgument($ItemObj.ToString()) | out-null
}
ForEach($Key in $AddParam.Keys){
$PowershellThread.AddParameter($Key, $AddParam.$key) | out-null
}
ForEach($Switch in $AddSwitch){
$PowershellThread.AddParameter($Switch) | out-null
}
$PowershellThread.RunspacePool = $RunspacePool
$Handle = $PowershellThread.BeginInvoke()
$Job = [pscustomobject][ordered]#{Handle=''; Thread=''; object=''}
$Job.Handle = $Handle
$Job.Thread = $PowershellThread
$Job.Object = $ItemObj.ToString()
$Jobs += $Job
if ($CommonObject.Settings.Debug) {$CommonObject.host.ui.WriteLine("`t$ItemObj")}
}
#}
}
End{
$ResultTimer = Get-Date
While (#($Jobs | Where-Object {$_.Handle -ne $Null}).count -gt 0) {
$Remaining = "$($($Jobs | Where-Object {$_.Handle.IsCompleted -eq $False}).object)"
If ($Remaining.Length -gt 60){
$Remaining = $Remaining.Substring(0,60) + "..."
}
Write-Progress `
-Activity "Waiting for Jobs - $($MaxThreads - $($RunspacePool.GetAvailableRunspaces())) of $MaxThreads threads running" `
-PercentComplete (($Jobs.count - $($($Jobs | Where-Object {$_.Handle.IsCompleted -eq $False}).count)) / $Jobs.Count * 100) `
-Status "$(#($($Jobs | Where-Object {$_.Handle.IsCompleted -eq $False})).count) remaining - $remaining"
ForEach ($Job in $($Jobs | Where-Object {$_.Handle.IsCompleted -eq $True})){
$Job.Thread.EndInvoke($Job.Handle)
$Job.Thread.Dispose()
$Job.Thread = $Null
$Job.Handle = $Null
$ResultTimer = Get-Date
}
If (($(Get-Date) - $ResultTimer).totalseconds -gt $TimeOut){
$NOK = $($Jobs | Where-Object {$_.Handle})
if ($CommonObject.Settings.Debug) {$CommonObject.host.ui.WriteErrorLine("[ TimeOut ] $($NOK.count) : $($NOK.object)")}
$NOK | %{
if ($CommonObject.Settings.Debug) {$CommonObject.host.ui.WriteErrorLine("[ stop ] $($_.object)")}
$_.thread.Stop() | Out-Null
if ($CommonObject.Settings.Debug) {$CommonObject.host.ui.WriteErrorLine("[ dispose ] $($_.object)")}
$_.thread.Dispose()
if ($CommonObject.Settings.Debug) {$CommonObject.host.ui.WriteErrorLine("[ null ] $($_.object)")}
$_.Thread = $Null
$_.Handle = $Null
}
$RunspacePool.Close() | Out-Null
$RunspacePool.Dispose() | Out-Null
exit
}
Start-Sleep -Milliseconds $SleepTimer
}
$RunspacePool.Close() | Out-Null
$RunspacePool.Dispose() | Out-Null
}
}
I am looking for a way to restart three services on multiple servers simultaneously. I know how to restart services against a list of servers by using a loop but as I have many servers it would take a long time to wait for each service on each server to restart in a sequential order. Is there a way to send restart service command to all servers at once instead of waiting for each server?
You could try to work with jobs. Jobs are run in the background and you have to retrieve them with Get-Job to see their status. Please read the information to Powershell jobs on these two sites:
http://msdn.microsoft.com/en-us/library/dd878288%28v=vs.85%29.aspx
http://technet.microsoft.com/de-DE/library/hh847783.aspx
Your code would look something like this:
$servernames | ForEach-Object {Start-Job -Name "Job-$_" -Scriptblock {"Enter your code here -Computername $_"}}
This will create a background job for each servername. As already mentioned you can see the status using the cmdlet Get-Job. To get the result use the cmdlet Receive-Job.
you can use the invoke-command cmdlet
invoke-command -computername computer1,computer2,computer3 {restart-service servicename}
I use and improove a multi-thread Function, you can use it like :
$Script = {
param($Computername)
restart-service servicename -Computername $Computername
}
#('Srv1','Srv2') | Run-Parallel -ScriptBlock $Script
include this code in your script
function Run-Parallel {
<#
.Synopsis
This is a quick and open-ended script multi-threader searcher
http://www.get-blog.com/?p=189#comment-28834
Improove by Alban LOPEZ 2016
.Description
This script will allow any general, external script to be multithreaded by providing a single
argument to that script and opening it in a seperate thread. It works as a filter in the
pipeline, or as a standalone script. It will read the argument either from the pipeline
or from a filename provided. It will send the results of the child script down the pipeline,
so it is best to use a script that returns some sort of object.
.PARAMETER ScriptBlock
This is where you provide the PowerShell ScriptBlock that you want to multithread.
.PARAMETER ItemObj
The ItemObj represents the arguments that are provided to the child script. This is an open ended
argument and can take a single object from the pipeline, an array, a collection, or a file name. The
multithreading script does it's best to find out which you have provided and handle it as such.
If you would like to provide a file, then the file is read with one object on each line and will
be provided as is to the script you are running as a string. If this is not desired, then use an array.
.PARAMETER InputParam
This allows you to specify the parameter for which your input objects are to be evaluated. As an example,
if you were to provide a computer name to the Get-Process cmdlet as just an argument, it would attempt to
find all processes where the name was the provided computername and fail. You need to specify that the
parameter that you are providing is the "ComputerName".
.PARAMETER AddParam
This allows you to specify additional parameters to the running command. For instance, if you are trying
to find the status of the "BITS" service on all servers in your list, you will need to specify the "Name"
parameter. This command takes a hash pair formatted as follows:
#{"key" = "Value"}
#{"key1" = "Value"; "key2" = 321; "key3" = 1..9}
.PARAMETER AddSwitch
This allows you to add additional switches to the command you are running. For instance, you may want
to include "RequiredServices" to the "Get-Service" cmdlet. This parameter will take a single string, or
an aray of strings as follows:
"RequiredServices"
#("RequiredServices", "DependentServices")
.PARAMETER MaxThreads
This is the maximum number of threads to run at any given time. If ressources are too congested try lowering
this number. The default value is 20.
.PARAMETER SleepTimer_ms
This is the time between cycles of the child process detection cycle. The default value is 200ms. If CPU
utilization is high then you can consider increasing this delay. If the child script takes a long time to
run, then you might increase this value to around 1000 (or 1 second in the detection cycle).
.PARAMETER TimeOutGlobal
this is the TimeOut in second for listen the last thread, after this timeOut All thread are closed, only each other are returned
.PARAMETER TimeOutThread
this is the TimeOut in second for each thread, the thread are aborted at this time
.PARAMETER PSModules
List of PSModule name to include for use in ScriptBlock
.PARAMETER PSSapins
List of PSSapin name to include for use in ScriptBlock
.EXAMPLE
1..20 | Run-Parallel -ScriptBlock {param($i) Start-Sleep $i; "> $i sec <"} -TimeOutGlobal 15 -TimeOutThread 5
.EXAMPLE
Both of these will execute the scriptBlock and provide each of the server names in AllServers.txt
while providing the results to GridView. The results will be the output of the child script.
gc AllServers.txt | Run-Parallel $ScriptBlock_GetTSUsers -MaxThreads $findOut_AD.ActiveDirectory.Servers.count -PSModules 'PSTerminalServices' | out-gridview
#>
Param(
[Parameter(ValueFromPipeline=$true,ValueFromPipelineByPropertyName=$true)]
$ItemObj,
[ScriptBlock]$ScriptBlock = $null,
$InputParam = $Null,
[HashTable] $AddParam = #{},
[Array] $AddSwitch = #(),
$MaxThreads = 20,
$SleepTimer_ms = 100,
$TimeOutGlobal = 300,
$TimeOutThread = 100,
[string[]]$PSSapins = $null,
[string[]]$PSModules = $null,
$Modedebug = $true
)
Begin{
$ISS = [system.management.automation.runspaces.initialsessionstate]::CreateDefault()
ForEach ($Snapin in $PSSapins){
[void]$ISS.ImportPSSnapIn($Snapin, [ref]$null)
}
ForEach ($Module in $PSModules){
[void]$ISS.ImportPSModule($Module)
}
$RunspacePool = [runspacefactory]::CreateRunspacePool(1, $MaxThreads, $ISS, $Host)
$RunspacePool.CleanupInterval=1000
$RunspacePool.Open()
$Jobs = #()
}
Process{
#ForEach ($Object in $ItemObj){
if ($ItemObj){
Write-Host $ItemObj -ForegroundColor Yellow
$PowershellThread = [powershell]::Create().AddScript($ScriptBlock)
If ($InputParam -ne $Null){
$PowershellThread.AddParameter($InputParam, $ItemObj.ToString()) | out-null
}Else{
$PowershellThread.AddArgument($ItemObj.ToString()) | out-null
}
ForEach($Key in $AddParam.Keys){
$PowershellThread.AddParameter($Key, $AddParam.$key) | out-null
}
ForEach($Switch in $AddSwitch){
$PowershellThread.AddParameter($Switch) | out-null
}
$PowershellThread.RunspacePool = $RunspacePool
$Handle = $PowershellThread.BeginInvoke()
$Job = [pscustomobject][ordered]#{
Handle = $Handle
Thread = $PowershellThread
object = $ItemObj.ToString()
Started = Get-Date
}
$Jobs += $Job
}
#}
}
End{
$GlobalStartTime = Get-Date
$continue = $true
While (#($Jobs | Where-Object {$_.Handle -ne $Null}).count -gt 0 -and $continue) {
ForEach ($Job in $($Jobs | Where-Object {$_.Handle.IsCompleted -eq $True})){
$out = $Job.Thread.EndInvoke($Job.Handle)
$out # return vers la sortie srandard
#Write-Host $out -ForegroundColor green
$Job.Thread.Dispose() | Out-Null
$Job.Thread = $Null
$Job.Handle = $Null
}
foreach ($InProgress in $($Jobs | Where-Object {$_.Handle})) {
if ($TimeOutGlobal -and (($(Get-Date) - $GlobalStartTime).totalseconds -gt $TimeOutGlobal)){
$Continue = $false
#Write-Host $InProgress -ForegroundColor magenta
}
if (!$Continue -or ($TimeOutThread -and (($(Get-Date) - $InProgress.Started).totalseconds -gt $TimeOutThread))) {
$InProgress.thread.Stop() | Out-Null
$InProgress.thread.Dispose() | Out-Null
$InProgress.Thread = $Null
$InProgress.Handle = $Null
#Write-Host $InProgress -ForegroundColor red
}
}
Start-Sleep -Milliseconds $SleepTimer_ms
}
$RunspacePool.Close() | Out-Null
$RunspacePool.Dispose() | Out-Null
}
}
Does anyone have a link or script that uses PowerShell to inventory the Scheduled Tasks on a server, including the Action?
I am able to get the Scheduled Service com object and what I would call "top level" properties (name, state, lastruntime), but would like to also get information from the "Actions" part of the Schedule Tasks (essentially, the name of Scheduled Task and its commandline).
For example:
$schedule = new-object -com("Schedule.Service")
$schedule.connect()
$tasks = $schedule.getfolder("\").gettasks(0)
$tasks | select Name, LastRunTime
foreach ($t in $tasks)
{
foreach ($a in $t.Actions)
{
$a.Path
}
}
The above snippet of code works in terms of listing the tasks; but the loop on the Actions simply does not seem to do anything, no error, no output whatsoever.
Any help would be appreciated.
This is probably very similar to current answers, but I wrote a quick script to get you going. The problem with your current script is that there is no Actions property in a task. You need to extract it from the xml task-definition that the comobject provides. The following script will return an array of objects, one per scheduled task. It includes the action if the action is to run one or more command. It's just to get you going, so you need to modify it to include more of the properties if you need them.
function getTasks($path) {
$out = #()
# Get root tasks
$schedule.GetFolder($path).GetTasks(0) | % {
$xml = [xml]$_.xml
$out += New-Object psobject -Property #{
"Name" = $_.Name
"Path" = $_.Path
"LastRunTime" = $_.LastRunTime
"NextRunTime" = $_.NextRunTime
"Actions" = ($xml.Task.Actions.Exec | % { "$($_.Command) $($_.Arguments)" }) -join "`n"
}
}
# Get tasks from subfolders
$schedule.GetFolder($path).GetFolders(0) | % {
$out += getTasks($_.Path)
}
#Output
$out
}
$tasks = #()
$schedule = New-Object -ComObject "Schedule.Service"
$schedule.Connect()
# Start inventory
$tasks += getTasks("\")
# Close com
[System.Runtime.Interopservices.Marshal]::ReleaseComObject($schedule) | Out-Null
Remove-Variable schedule
# Output all tasks
$tasks
Ex. of output
PS > .\Untitled1.ps1 | ? { $_.Name -eq "test" }
Actions : notepad.exe c:\test.txt
calc.exe
Path : \test
Name : test
LastRunTime : 30.12.1899 00:00:00
NextRunTime : 17.03.2013 13:36:38
Get the PowerShellPack from the W7 RK, and try get-scheduledtask
http://archive.msdn.microsoft.com/PowerShellPack
Excerpt From MSDN:
The Windows 7 Resource Kit PowerShell Pack contains 10 modules to do all sorts of interesting things with PowerShell. Import-Module PowerShellPack actually imports 10 modules for you to use. Here’s a brief overview of each of the modules.
WPK Create rich user interfaces quick and easily from Windows PowerShell. Think HTA, but easy. Over 600 scripts to help you build quick user interfaces
TaskScheduler List scheduled tasks, create or delete tasks
FileSystem Monitor files and folders, check for duplicate files, and check disk space
IsePack Supercharge your scripting in the Integrated Scripting Environment with over 35 shortcuts
DotNet Explore loaded types, find commands that can work with a type, and explore how you can use PowerShell, DotNet and COM together
PSImageTools Convert, rotate, scale, and crop images and get image metadata
PSRSS Harness the FeedStore from PowerShell
PSSystemTools Get Operating System or Hardware Information
PSUserTools Get the users on a system, check for elevation, and start-processaadministrator
PSCodeGen Generates PowerShell scripts, C# code, and P/Invoke
Another way would be a script I wrote called Get-ScheduledTask.ps1, available in this article:
How-To: Use PowerShell to Report on Scheduled Tasks
In this way you only need this single script and you don't need to download or install anything else.
Bill
I know I'm late to the party, but the answer provided by #Frode F., while it works, is technically not correct.
You can access items of the Actions collection of a scheduled task via PowerShell, it's just not immediately obvious. I had to figure this out myself today as well.
Here's the code to do this all in PowerShell, without having to muck around with XML:
# I'm assuming that you have a scheduled task object in the variable $task:
$taskAction = $task.Definition.Actions.Item.Invoke(1) # Collections are 1-based
That's all there is to getting a single item out of the collection without using foreach.
Because the Actions property is a collection which contains a parameterized property Item (e.g. in C# you would write myTask.Actions[0] or in VB myTask.Actions.Item(1)), PowerShell represents the Item property as a PSParameterizedProperty object. To call the methods associated with the property, you use the Invoke method (for the getter) and InvokeSet method (for the setter).
I ran a quick test running the OP's code and it worked for me (I'm running PowerShell 4.0, however, so maybe that has something to do with it):
$schedule = new-object -com("Schedule.Service")
$schedule.connect()
$tasks = $schedule.getfolder("\").gettasks(0)
$tasks | select Name, LastRunTime
foreach ($t in $tasks)
{
foreach ($a in $t.Actions)
{
Write-Host "Task Action Path: $($a.Path)" # This worked
Write-Host "Task Action Working Dir: $($a.workingDirectory)" # This also worked
}
$firstAction = $t.Actions.Item.Invoke(1)
Write-Host "1st Action Path: $($firstAction.Path)"
Write-Host "1st Action Working Dir: $($firstAction.WorkingDirectory)"
}
HTH.
here a quick one based on: https://blogs.technet.microsoft.com/heyscriptingguy/2015/01/17/weekend-scripter-use-powershell-to-document-scheduled-tasks/
Uses Powershell: Get-ScheduledTask and Get-ScheduledTaskInfo
### run like >> Invoke-Command -ComputerName localhost, server1, server2 -FilePath C:\tmp\Get_WinTasks.ps1
$taskPath = "\"
$outcsv = "c:\$env:COMPUTERNAME-WinSchTaskDef.csv"
Get-ScheduledTask -TaskPath $taskPath |
ForEach-Object { [pscustomobject]#{
Server = $env:COMPUTERNAME
Name = $_.TaskName
Path = $_.TaskPath
Description = $_.Description
Author = $_.Author
RunAsUser = $_.Principal.userid
LastRunTime = $(($_ | Get-ScheduledTaskInfo).LastRunTime)
LastResult = $(($_ | Get-ScheduledTaskInfo).LastTaskResult)
NextRun = $(($_ | Get-ScheduledTaskInfo).NextRunTime)
Status = $_.State
Command = $_.Actions.execute
Arguments = $_.Actions.Arguments }} |
Export-Csv -Path $outcsv -NoTypeInformation