CMAWS.psm1
#Requires -version 3.0 #Requires -Module AwsPowerShell Function Convert-TextToSpeech { <# .Synopsis Converts text files into audio files. .DESCRIPTION Parses the contents of multiple text files and outputs each file to an audio file by using Amazon's Polly service (https://aws.amazon.com/polly/) .NOTES Name: Convert-TextToSpeech Author: Chad Miles DateUpdated: 2017-05-04 Version: 1.2.0 .EXAMPLE Convert-TextToSpeech input.txt -Voice Joanna This will output input.mp3 using Amy voice .EXAMPLE Convert-TextToSpeech *.txt -Voice Amy -OutputFormat ogg This will convert all the .txt files to .ogg files in Joanna voice. #> [CmdletBinding()] Param ( #The Input file(s), wilcards and just pointing to a folder itself work fine, just know that it will suck in what you ever you give it. [Parameter(Mandatory=$true)] [string[]] $InputFiles, #Format of the output, mp3, ogg or pcm [string] $OutputFormat = "mp3", #The voice used, default is Amy (English - UK), for all voices please run Get-POLVoice | select -ExpandProperty Id [string] $Voice = "Amy" ) $ErrorActionPreference = "Stop" Write-Verbose "Validating Voice" $VoiceIds = (Get-POLVoice).Id.Value if ($VoiceIds -notcontains $Voice) { Write-Error "$Voice is not a valid voice, Valid Voices are $VoiceIds" } Write-Verbose "Processing Files" $PreText = '<speak>' $PostText = '<break time="350ms"/></speak>' $PollyLimit = 1000 $MaxTextLength = $PollyLimit - ($PreText.Length + $PostText.Length) $InputFileNames = (dir $InputFiles).FullName Foreach ($InputFile in $InputFileNames) { $Text = Get-Content $InputFile $LongLines = $false Foreach ($Line in $Text){ $FileName = $InputFile.Name $LineLength = $PreText.Length + $Line.Length + $PostText.Length If ($LineLength -ge $PollyLimit){ $LongLines = $true } } If ($LongLines) { Write-Warning "$InputFile was skipped as it has lines that are longer than $MaxTextLength characters, which is the longest we can submit to Polly excluding SSML tags." } else { $DirectoryName = (dir $InputFile).Directory $BaseName = (dir $InputFile).BaseName $OutputFile = "$DirectoryName\$BaseName.$OutputFormat" $OutputStream = New-Object System.IO.FileStream $OutputFile, Create Foreach ($Line in $Text) { (Get-POLSpeech -Text $PreText$Line$PostText -TextType ssml -VoiceId $Voice -OutputFormat $OutputFormat).AudioStream.CopyTo($OutputStream) } (Get-POLSpeech -Text '<speak><break time="2s"/></speak>' -TextType ssml -VoiceId $Voice -OutputFormat $OutputFormat).AudioStream.CopyTo($OutputStream) $OutputStream.Close() $OutputProperties = @{ InputFile = $InputFile Outputfile = $OutPutFile } $OutputObject = New-Object -TypeName PSObject -Property $OutputProperties Write-Output $OutputObject } } } Function New-CMEC2Instance { <# .Synopsis Creates a Windows EC2 On demand or spot Instance with minimal input. .DESCRIPTION Creates a Windows EC2 On demand or spot Instance and, if a Name and DomainName are specified, creates or updates the Route 53 entry for the instance and applies a Name Tag. .NOTES Name: New-CMEC2Instance Author: Chad Miles DateUpdated: 2017-05-02 Version: 1.2.0 .EXAMPLE C:\> New-CMEC2Instance -InstanceType t2.micro -Region us-east-1 -DomainName mydomain.com -Name MyInstance InstanceID : i-1234567890abcdef Region : us-east-1 Name : MyInstance Hostname : MyInstance.Mydomain.com InstanceType : t2-micro BidPrice : OnDemandPrice : 0.017 Savings : 0 % ImageName : WINDOWS_2016_BASE ImageID : ami-58a1a73e KeyName : MyKeyPair .EXAMPLE C:\> New-CMEC2Instance -InstanceType t2.micro -Region us-east-1 -Name MyInstance InstanceID : i-1234567890abcdef Region : us-east-1 Name : MyInstance Hostname : ec2-34-248-2-178.eu-west-1.compute.amazonaws.com InstanceType : t2-micro BidPrice : OnDemandPrice : 0.017 Savings : 0 % ImageName : WINDOWS_2016_BASE ImageID : ami-58a1a73e KeyName : MyKeyPair .EXAMPLE C:\> New-CMEC2Instance -InstanceType t2.micro -Region us-east-1 -Name MyInstance -DomainName mydomain.com -OSVerion 2012R2 InstanceID : i-1234567890abcdef Region : us-east-1 Name : MyInstance Hostname : MyInstance.Mydomain.com InstanceType : t2-micro BidPrice : OnDemandPrice : 0.017 Savings : 0 % ImageName : WINDOWS_2012R2_BASE ImageID : ami-40003a26 KeyName : MyKeyPair .EXAMPLE C:\> New-CMEC2Instance -InstanceType t2.micro -Region us-east-1 -Name MyInstance -DomainName mydomain.com -SpotRequest WARNING: Spot Instances not available for T1 and T2 instance types, switching to on demand. InstanceID : i-1234567890abcdef Region : us-east-1 Name : MyInstance Hostname : MyInstance.Mydomain.com InstanceType : t2-micro BidPrice : OnDemandPrice : 0.017 Savings : 0 % ImageName : WINDOWS_2016_BASE ImageID : ami-40003a26 KeyName : MyKeyPair .EXAMPLE C:\> New-CMEC2Instance -InstanceType m3.medium -Region us-east-1 -Name MySpotInstance -DomainName mydomain.com -SpotRequest InstanceID : i-1234567890abcdef Region : us-east-1 Name : MySpotInstance Hostname : MySpotInstance.Mydomain.com InstanceType : m3.medium BidPrice : 0.0741 OnDemandPrice : 0.13 Savings : 55 % ImageName : WINDOWS_2016_BASE ImageID : ami-58a1a73e KeyName : MyKeyPair #> [CmdletBinding(SupportsShouldProcess=$true)] Param ( [Parameter(Mandatory=$true)] [string] $InstanceType, [Parameter(Mandatory=$true)] [string] $Region, # Applies this name tage to the instance after creation, if -DomainName is specified as well then registers a DNS CNAME for your instance using this name [string] $Name, # If -Name is also specified then a DNS CNAME is registered, provided you have rights to do so. [string] $DomainName, # The amount of instances you want to launch, default is 1 [int] $Count = 1, # WINDOWS or LINUX, Default is Windows [string] $OS = "Windows", # Version of Windows e.g. 2012R2 or 2016. Default is 2012R2 [string] $OSVersion = "2016", # BASE or SQL_EDITION_YEAR, Must be uppercase [string] $AmiEdition = "BASE", # Instance Profile (with IAM Role) to attach to new Instance [string] $InstanceProfile, # Path to User data file , using Your My Documents folder as a root [string] $UserData, # What Percrentage to add to the lowest Spot Price to ensure instance's longevity [int] $MarkUp = 1, [Parameter(ValueFromPipeline =$true, ValueFromPipelineByPropertyName=$true)] [string] $ImageID, # The name of the Security Group, not the Security Group ID. The Function will get the ID. If none is specified the default Security Group is used. [string] $SecurityGroupName, # Switch to specify that a Spot instance should be created instead of On Demand. Bid price will be automatically calculated based on current bid price plus a markup percentage of which the default is 1. [switch] $SpotInstance, # The Name of the EC2 KeyPair to use when creating the instance [string] $KeyName, # The ID of the VPC you wish to use, if not specified, the default one is used. [string] $VpcId, # Last letter of the Availability Zone like a, b, c, d or e, if none specified, a is used [string] $AZSuffix = "a" ) If ($InstanceType -like "t*" -and $SpotInstance) { Write-Warning "Spot Instances not available for T1 and T2 instance types, switching to on demand." $SpotInstance = $false } $AvailabilityZone = $Region+$AZSuffix $ErrorActionPreference = "Stop" $OS = $OS.ToUpper() $AmiEdition = $AmiEdition.ToUpper() $OSVersion = $OSVersion.ToUpper() $Region = $Region.ToLower() $InstanceType = $InstanceType.ToLower() Write-Verbose "Geting On Demand Instance Pricing" $OndemandPrice = Get-EC2WindowsOndemandPrice -InstanceType $InstanceType -Region $Region If ($SpotInstance) { Write-Verbose "Getting Current Spot Price of Instance Type and adding mark up." $OSLower = $OS.Substring(0,1).ToUpper()+$OS.Substring(1).ToLower() $CurrentSpotPrice = ((Get-EC2SpotPriceHistory -Region $Region -StartTime (Get-Date) -InstanceType $InstanceType -ProductDescription $OSLower).Price | Measure-Object -Minimum).Minimum $BidPrice = $CurrentSpotPrice + ($CurrentSpotPrice * ($MarkUp/100)) If ($OndemandPrice -gt $BidPrice) { $Savings = [math]::Round((($OndemandPrice - $BidPrice) / $OnDemandPrice)*100) Write-Verbose "Requesting $Count $InstanceType instance(s) at $ $BidPrice/hour ($Savings% Savings)" } else { Write-Error "OnDemand Pricing ($ $OndemandPrice) is better than Spot Price ($ $BidPrice)"} } $ImageName = $OS+"_"+$OSVersion+"_"+$AMIEdition if (!$ImageID) { Write-Verbose "Getting Current AMI for Selected OS" $ImageID = (Get-EC2ImageByName -Region $Region -Name $ImageName -Verbose).ImageId } if (!$Keyname) { Write-Verbose "Getting first KeyPair for Region" $KeyName = (Get-EC2KeyPair -Region $Region)[0].KeyName } if (!$KeyName) { Write-Error "No EC2 Key Pairs found in region $Region, please create one" } If ($UserData) { $UserData64 = [System.Convert]::ToBase64String([System.Text.Encoding]::ASCII.GetBytes($UserData)) } If (!$VPCid) { Write-Verbose "Getting default VPC" $VPCId = (Get-EC2Vpc | Where {$_.IsDefault -eq $true}).VpcId } If ($SecurityGroupName) { Write-Verbose "Getting Security Group for name $SecurityGroupName" $SecurityGroupId = (Get-EC2SecurityGroup -Region $Region | where {$_.GroupName -eq $SecurityGroupName -and $_.VpcId -eq $VpcId})[0].GroupId If (!$SecurityGroupName) {Write-Error "Security Group with $SecurityGroupName cannot be found"} } else { Write-Verbose "Getting Security Group for VPC $VpcId" $SecurityGroupId = (Get-EC2SecurityGroup -Region $Region | where {$_.GroupName -eq "default" -and $_.VpcId -eq $VPCId})[0].GroupId If (!$SpotInstance){ Write-Verbose "Getting Subnet for name $AvailabilityZone" $SubNetId = (Get-EC2Subnet -Region $Region | where {$_.AvailabilityZone -eq $AvailabilityZone -and $_.VpcId -eq $VPCid})[0].SubnetId } } If ($SpotInstance) { $Params = @{ Region = $Region InstanceCount = $Count SpotPrice = $BidPrice Type = "one-time" IamInstanceProfile_Name = $InstanceProfile LaunchSpecification_ImageId = $ImageID LaunchSpecification_InstanceType = $InstanceType LaunchSpecification_KeyName = $KeyName LaunchSpecification_UserData = $UserData64 } $SpotRequest = Request-EC2SpotInstance @Params Write-Host "Waiting for Spot Fufillment" $InstanceID = $false While (!$InstanceID){ Start-Sleep 1 $InstanceID = (Get-EC2SpotInstanceRequest $SpotRequest.SpotInstanceRequestId).Instanceid } } else { $Params = @{ Region = $Region MinCount = $Count MaxCount = $Count InstanceType = $InstanceType SecurityGroupId = $SecurityGroupId InstanceProfile_Name = $InstanceProfile ImageId = $ImageID SubnetId = $SubNetId KeyName = $KeyName UserData = $UserData64 } $NewInstance = New-EC2Instance @Params $InstanceID = ($NewInstance.Instances).InstanceID $Savings = 0 } $InstanceInfo = Get-EC2Instance -InstanceId $InstanceID -Region $Region $PublicDNSName = $InstanceInfo.RunningInstance.PublicDNSName if ($Name) { $Tag = New-Object Amazon.EC2.Model.Tag $Tag.Key = "Name" $Tag.Value = "$Name" Write-Verbose "Applying Name Tag to instance" New-EC2Tag -Resource $InstanceID -Tag $Tag -Region $Region } if ($DomainName -and $Name) { $HostName = $Name+"."+$DomainName Write-Verbose "Creating DNS entry $HostName" Set-R53Record -Domain $DomainName -Type CNAME -Name $Name -Value $PublicDNSName -TTL 30 | Out-Null } else { $HostName = $PublicDNSName} $OutputProperties = @{ InstanceID = $InstanceID Region = $Region Name = $Name Hostname = $HostName InstanceType = $InstanceType BidPrice = $BidPrice OnDemandPrice = $OnDemandPrice Savings = "$Savings %" ImageName = $ImageName ImageID = $ImageID KeyName = $KeyName } $OutputObject = New-Object -TypeName PSObject -Property $OutputProperties Write-Output $OutputObject } Function New-CMPassword { <# .Synopsis Generates random passwords .DESCRIPTION Generates Random passwords and outputs as text and to Clipboard or just to clipboard .EXAMPLE PS> New-CMPassword -Easy Kobi2858 .EXAMPLE PS> New-CMPassword N42v9AjCWF1J .EXAMPLE PS> New-CMPassword -ClipOnly PS> Password is only put in clipboard and not displayed on screen. .EXAMPLE PS> $pass = New-CMPassword PS> Set-ADAccountPassword DOMAIN\USERNAME -NewPassword (ConvertTo-SecureString ($pass) -AsPlainText -Force) PS> Write-Output "Account password set to $pass" This will set an AD account's password to a randomly generated password and copy that password to the clipboard #> [CmdletBinding()] [Alias('np')] [OutputType([String])] Param ( #Creates easy readable and rememberable password like Office 365's password generator [Switch] $Easy, [Switch] #Enables the use of special characters, like !^&*(%$#)-=_+ $Specials, [Switch] #Doesn't output the password as text but rather only copies it to Clipboard $ClipOnly, #Specifies the length of the password. This parameter is ignored when you use the -Easy switch [Parameter(Position=0)] [int]$Length = 12, #Specifies the ammount of passwords to generate, only the last one will be left in the clipboard [int]$Count = 1 ) for ($c = 0 ; $c -lt $Count ; $c++){ if ($easy -Eq $true) { $digits = 48..57 $UpperConsonants = 66..68 + 70..72 + 74..78 + 80..84 + 86..90 $LowerConsonants = 98..100 + 102..104 + 106..110 + 112..116 + 118..122 $LowerVowels = 97, 101, 105, 111, 117 $first = [char](get-random -count 1 -InputObject $UpperConsonants) $second = [char](get-random -count 1 -InputObject $LowerVowels) $third = [char](get-random -count 1 -InputObject $LowerConsonants) $fourth = [char](get-random -count 1 -InputObject $LowerVowels) $numbers = $null for ($i=0 ; $i -lt 4; $i++) { $numbers += [char](get-random -count 1 -InputObject $digits) } $password = ($first + $second + $third + $fourth + $numbers) } Else { $digits = 48..57 $letters = 65..90 + 97..122 $specialchar = 33..47 + 58..64 + 91..96 + 123..126 $password = $null for ($i = 0 ; $i -lt $Length ; $i++) { If ($Specials -eq $true) {$password += [char](get-random -count 1 -InputObject ($digits + $letters + $specialchar))} Else {$password += [char](get-random -count 1 -InputObject ($digits + $letters))} } } $password | Clip If($ClipOnly -ne $true) {$password} } } Function New-CMEasyPassword { <# .Synopsis See New-CMPassword Help Alais for executing New-CMPassword -Easy -Count 1 #> Param( $Count = 1, [Switch] $ClipOnly) if ($ClipOnly -eq $true) {New-CMPassword -Easy -Count $Count -ClipOnly} else {New-CMPassword -Easy -Count $Count} } Function Enter-AWSPSSession { [Cmdletbinding()] Param( $DomainName = "chadmile.myinstance.com", $Pem, $Port = 22, $Instance ) $RunningInstance = (Get-EC2Instance -InstanceId $Instance).RunningInstance $InstanceTag = $RunningInstance.Tags | Where-Object {$_.Key -eq "Name"} | Select -ExpandProperty Value $GetPassword = Get-EC2PasswordData -InstanceId $Instance -PemFile $Pem $Password = ConvertTo-SecureString $GetPassword -AsPlainText -Force $Credential = New-Object System.Management.Automation.PSCredential (".\Administrator", $Password) $SessionOptions = New-PSSessionOption -SkipCACheck -SkipCNCheck $ComputerName = $InstanceTag+"."+$DomainName Enter-PSSession -ComputerName $ComputerName -UseSSL -Port 22 -Credential $Credential -SessionOption $SessionOptions } Function Get-EC2WindowsOndemandPrice { Param( [Parameter(Mandatory=$true)] $InstanceType, [Parameter(Mandatory=$true)] $Region) $OnDemandPricing = Invoke-RestMethod -uri http://a0.awsstatic.com/pricing/1/ec2/mswin-od.min.js $CurrentYear = (Get-Date).Year $IntroText = '/* * This file is intended for use only on aws.amazon.com. We do not guarantee its availability or accuracy. * * Copyright '+$CurrentYear+' Amazon.com, Inc. or its affiliates. All rights reserved. */ callback(' | Out-String $OnDemandPricing = $OnDemandPricing.TrimStart($IntroText) $OnDemandPricing = $OnDemandPricing.TrimEnd(');') $PricingObject = ($OnDemandPricing | ConvertFrom-Json).config.regions $RegionPrices = $PricingObject | where {$_.region -eq $Region} $AllInstances = $RegionPrices.instancetypes.sizes $InstanceEntry = $AllInstances| where {$_.size -eq $InstanceType} $Price = $InstanceEntry.valuecolumns.prices.usd Write-Output $Price } Function Invoke-AWSCommand { [Cmdletbinding()] Param( $ScriptBlock, $DomainName = "chadmile.myinstance.com", $Pem, $Port = 22, $Instance ) $RunningInstance = (Get-EC2Instance -InstanceId $Instance).RunningInstance $InstanceTag = $RunningInstance.Tags | Where-Object {$_.Key -eq "Name"} | Select -ExpandProperty Value $GetPassword = Get-EC2PasswordData -InstanceId $Instance -PemFile $Pem $Password = ConvertTo-SecureString $GetPassword -AsPlainText -Force $Credential = New-Object System.Management.Automation.PSCredential (".\Administrator", $Password) $SessionOptions = New-PSSessionOption -SkipCACheck -SkipCNCheck $ComputerName = $InstanceTag+"."+$DomainName Invoke-Command -ComputerName $ComputerName -UseSSL -Port 22 -Credential $Credential -SessionOption $SessionOptions $ScriptBlock } Function Get-CMEC2Instances { [Cmdletbinding()] Param ( [string[]]$Region ) $ErrorActionPreference = "Stop" $AllRegions = (Get-AWSRegion).Region If (!$Region) { $Regions = $AllRegions Write-Warning "Getting instances for all regions, May take some time" } Else {$Regions = $Region} $InstancesList = New-Object -TypeName System.Collections.ArrayList Foreach ($Reg in $Regions) { If ($AllRegions -notcontains $Reg){Write-Error "$Region is not a valid AWS Region, Valid regions are $AllRegions"} $Instances = (Get-EC2Instance -Region $Reg).RunningInstance Foreach ($Instance in $Instances) { $Properties = @{ Name = $Instance.Tags | Where-Object {$_.Key -eq "Name"} | Select -ExpandProperty Value State = $Instance.State.Name InstanceType = $Instance.InstanceType InstanceID = $Instance.InstanceID Region = $Reg LaunchTime = $Instance.LaunchTime PublicIpAddress = $Instance.PublicIpAddress } $InstanceObject = New-Object PSObject -Property $Properties $InstancesList.Add($InstanceObject) | Out-Null } } Write-Output $InstancesList } Function Set-R53Record { <# .SYNOPSIS Made for easier interaction with Amazon Route 53 DNS service. .DESCRIPTION Run the script in CREATE/UPDATE mode in order to add or modify DNS records in Amazon Route 53. Requires 4 parameters - Domain name and type, name and the value of DNS record. .NOTES File name : Set-R53Record.ps1 Author : Sinisa Mikasinovic - six@mypowershell.space Date : 02-Jan-17 Script created as part of a learning tutorial at mypowershell.space. http://mypowershell.space/index.php/2017/01/02/amazon-route-53-records/ All expected functionality may not be there, make sure you give it a test run first. Feel free to update/modify. I'd be interested in seeing it improved. This script example is provided "AS IS", without warranties or conditions of any kind, either expressed or implied. By using this script, you agree that only you are responsible for any resulting damages, losses, liabilities, costs or expenses. .LINK http://mypowershell.space .EXAMPLE Set-R53Record -Domain mypowershell.space -Type A -Name www -Value 1.2.3.4 -TTL 300 Create an A record to point www.mypowershell.space to IP 1.2.3.4. TTL set to 5 minutes. .EXAMPLE Set-R53Record -Domain mypowershell.space -Type A -Name mail -Value 1.2.3.4 -TTL 3600 -Comment "mail entry" Create an A record to point mail.mypowershell.space to IP 1.2.3.4. TTL set to 60 minutes and has an optional comment. .EXAMPLE Set-R53Record -Domain mypowershell.space -Type TXT -Name _amazonses -Value "G3LNeKkT8eYmQLeyAp" -Comment "confirm domain ownership" Create a TXT record to set _amazonses.mypowershell.space to "G3LNeKkT8eYmQLeyAp" and confirm domain ownership. Will use default TTL (300) and no comment. .PARAMETER Domain Defines a domain which DNS zone is to be edited: 1. mypowershell.space 2. amazon.com 3. google.com. 4. facebook.com. .PARAMETER Type Defines a type of a DNS record: A, TXT, MX, CNAME, NS... Most likely won't support all. If you mod the script and add functionality, let me know! .PARAMETER Name Defines a name of a DNS record: www, mail, intranet, dev... .PARAMETER Value Defines a value of DNS record: 1. 192.168.0.1 2. "ZTJGIJ4OIJS9J3560S" Bear in mind which record type is numerical and which textual! .PARAMETER TTL Defines a TTL of DNS record. I shouldn't really need to explain this :-) Not mandatory, defaults to 300. .PARAMETER Comment Defines an optional R53 comment. Not mandatory, not included if not explicitly defined. #> # Entry parameters Param ( [Parameter(Mandatory=$True)][String]$Domain, [Parameter(Mandatory=$True)][String]$Type, [Parameter(Mandatory=$True)][String]$Name, [Parameter(Mandatory=$True)][String]$Value, [Int]$TTL = 300, [String]$Comment ) # Check of user entered domain without the dot, and add it if ($Domain.Substring($Domain.Length-1) -ne ".") { $DomainDot = $Domain + "." } else { $DomainDot = $Domain } # Create two objects for R53 update $Change = New-Object Amazon.Route53.Model.Change $Change.Action = "UPSERT" # CREATE: Creates a resource record set that has the specified values. # DELETE: Deletes an existing resource record set that has the specified values. # UPSERT: If a resource record set doesn't already exist, AWS creates it. If it does, Route 53 updates it with values in the request. $Change.ResourceRecordSet = New-Object Amazon.Route53.Model.ResourceRecordSet $Change.ResourceRecordSet.Name = "$Name.$Domain" $Change.ResourceRecordSet.Type = $Type $Change.ResourceRecordSet.TTL = $TTL #$Change.ResourceRecordSet.ResourceRecords.Add(@{Value=$Value}) $Change.ResourceRecordSet.ResourceRecords.Add(@{Value=if ($Type -eq "TXT") {"""$Value"""} else {$Value}}) # Get hosted zone $HostedZone = Get-R53HostedZones | Where-Object {$_.Name -eq $DomainDot} # Set final parameters and execute $Parameters = @{ HostedZoneId = $HostedZone.Id ChangeBatch_Change = $Change # Object ChangeBatch_Comment = $Comment # "Edited A record" } Edit-R53ResourceRecordSet @Parameters } Function Start-CMInstance { [CmdletBinding()] Param ( [Parameter(Mandatory=$true)] $InstanceID, $DomainName, $Region ) $ErrorActionPreference = "Stop" If ($Region){ $AllRegions = (Get-AWSRegion).Region If ($AllRegions -notcontains $Reg) { Write-Error "$Region is not a valid AWS Region, Valid regions are $AllRegions" } } If ($Region) {$StartingInstance = Start-EC2Instance -InstanceId $InstanceID -Region $Region} Else {$StartingInstance = Start-EC2Instance -InstanceId $InstanceID} $PreviousState = ($StartingInstance).PreviousState.Name.Value $CurrentState = ($StartingInstance).CurrentState.Name.Value Write-Host "Instance $InstanceID $PreviousState --> $CurrentState" Start-Sleep 1 If ($DomainName -and (Get-Command Set-R53Record)){ Write-Verbose "Getting Public DNS name" If ($Region) {$RunningInstance = (Get-EC2Instance -InstanceId $InstanceID -Region $Region).RunningInstance} Else {$RunningInstance = (Get-EC2Instance -InstanceId $InstanceID).RunningInstance} $NameTag = $RunningInstance.Tags | Where-Object {$_.Key -eq "Name"} | Select -ExpandProperty Value $PublicCName = $RunningInstance.PublicDnsName Write-Output "Updating R53 CName $Name.$DomainName" Set-R53Record -Domain $DomainName -Type CNAME -Name $NameTag -Value $PublicCName -TTL 30 | Out-Null } } Function Stop-AllInstances { $AllRegions = (Get-AWSRegion).Region foreach ($Region in $AllRegions) { $Instances = (Get-EC2Instance -Region $Region).RunningInstance foreach ($Instance in $Instances) { $Tags = ($Instances.tags).Key $InstanceState = ($Instances.State).Name if ($Tags -notcontains "Persistent" -and $InstanceState -ne "stopped") { $InstanceID = ($Instances).InstanceId Write-Output "Stopping $InstanceID" Stop-EC2Instance -InstanceId $InstanceID -Region $Region | Out-Null } } } } Function Send-SSMPowerShellCommand { <# .Synopsis Sends PowerShell Commands to a AWS EC2 SSM Managed Instance and displays results. .DESCRIPTION Sends PowerShell Commands to a SSM Managed Instance and waits for the command to finish then brings back the output from that command to the console .NOTES Name: Send-SSMPowerShellCommand Author: Chad Miles DateUpdated: 2017-05-06 Version: 1.0.1 .EXAMPLE C:\> $SSMCommands = {Get-Service Bits} C:\> Send-SSMPowerShellCommand -InstanceID i-abcdef1234567890 -Command $SSMCommands | Format-List InstanceID : i-abcdef1234567890 Output : Status Name DisplayName ------ ---- ----------- Running BITS Background Intelligent Transfer Ser... .EXAMPLE C:\> $SSMCommands = {Get-Service Bits} C:\> Send-SSMPowerShellCommand -InstanceID i-abcdef1234567890,i-1234567890abcdef -Region us-west-2 -Command $SSMCommands | Format-List InstanceID : i-abcdef1234567890 Output : Status Name DisplayName ------ ---- ----------- Running BITS Background Intelligent Transfer Ser... InstanceID : i-1234567890abcdef Output : Status Name DisplayName ------ ---- ----------- Running BITS Background Intelligent Transfer Ser... .EXAMPLE C:\> $SSMCommands = {Get-Service Bits} C:\> Get-SSMInstanceInformation | Send-SSMPowerShellCommand -Command $SSMCommands | Format-List InstanceID : {i-abcdef1234567890} Output : Status Name DisplayName ------ ---- ----------- Running BITS Background Intelligent Transfer Ser... InstanceID : {i-1234567890abcdef} Output : Status Name DisplayName ------ ---- ----------- Running BITS Background Intelligent Transfer Ser... #> [Cmdletbinding()] Param( [Parameter(Mandatory =$true, ValueFromPipeline =$true, ValueFromPipelineByPropertyName=$true)] [string[]] $InstanceID, [string] $Region, [Parameter(Mandatory =$true)] [string] $Command ) BEGIN {} PROCESS { foreach ($Instance in $InstanceID){ If ($Region) {$CommandID = (Send-SSMCommand -InstanceId $Instance -DocumentName "AWS-RunPowerShellScript" -Parameter @{commands="$Command"} -Region $Region).CommandId} Else {$CommandID = (Send-SSMCommand -InstanceId $Instance -DocumentName "AWS-RunPowerShellScript" -Parameter @{commands="$Command"}).CommandId} $SSMRunStatus = $false While (!$SSMRunStatus) { Start-Sleep -Seconds 1 If ($Region) {$SSMCommandStatus = (Get-SSMCommand -InstanceId $Instance -CommandId $CommandID -Region $Region).Status.Value} Else {$SSMCommandStatus = (Get-SSMCommand -InstanceId $Instance -CommandId $CommandID ).Status.Value} if ($SSMCommandStatus -eq "Success") { $SSMRunStatus = $true If ($Region) {$SSMOutPut = (Get-SSMCommandInvocationDetail -InstanceId $Instance -CommandId $CommandID -Region $Region).StandardOutputContent} Else {$SSMOutPut = (Get-SSMCommandInvocationDetail -InstanceId $Instance -CommandId $CommandID).StandardOutputContent} } elseif ($SSMCommandStatus -eq "Failed") { $SSMRunStatus = $true Write-Error "SSM Run Command to Failed" } } $OutputProperties = @{ Output = $SSMOutPut InstanceID = $InstanceID } $OutputObject = New-Object -TypeName PSObject -Property $OutputProperties Write-Output $OutputObject } } END{} } Function Connect-RemoteDesktop { <# .SYNOPSIS Function to connect an RDP session without the password prompt .DESCRIPTION This function provides the functionality to start an RDP session without having to type in the password .PARAMETER ComputerName This can be a single computername or an array of computers to which RDP session will be opened .PARAMETER User The user name that will be used to authenticate .PARAMETER Password The password that will be used to authenticate .PARAMETER Credential The PowerShell credential object that will be used to authenticate against the remote system .PARAMETER Admin Sets the /admin switch on the mstsc command: Connects you to the session for administering a server .PARAMETER MultiMon Sets the /multimon switch on the mstsc command: Configures the Remote Desktop Services session monitor layout to be identical to the current client-side configuration .PARAMETER FullScreen Sets the /f switch on the mstsc command: Starts Remote Desktop in full-screen mode .PARAMETER Public Sets the /public switch on the mstsc command: Runs Remote Desktop in public mode .PARAMETER Width Sets the /w:<width> parameter on the mstsc command: Specifies the width of the Remote Desktop window .PARAMETER Height Sets the /h:<height> parameter on the mstsc command: Specifies the height of the Remote Desktop window .NOTES Name: Connect-RemoteDesktop Author: Jaap Brasser DateUpdated: 2016-10-28 Version: 1.2.5 Blog: http://www.jaapbrasser.com .LINK http://www.jaapbrasser.com .EXAMPLE . .\Connect-RemoteDesktop.ps1 Description ----------- This command dot sources the script to ensure the Connect-Mstsc function is available in your current PowerShell session .EXAMPLE Connect-RemoteDesktop -ComputerName server01 -User contoso\jaapbrasser -Password (ConvertTo-SecureString 'supersecretpw' -AsPlainText -Force) Description ----------- A remote desktop session to server01 will be created using the credentials of contoso\jaapbrasser .EXAMPLE Connect-RemoteDesktop server01,server02 contoso\jaapbrasser (ConvertTo-SecureString 'supersecretpw' -AsPlainText -Force) Description ----------- Two RDP sessions to server01 and server02 will be created using the credentials of contoso\jaapbrasser .EXAMPLE server01,server02 | Connect-RemoteDesktop -User contoso\jaapbrasser -Password supersecretpw -Width 1280 -Height 720 Description ----------- Two RDP sessions to server01 and server02 will be created using the credentials of contoso\jaapbrasser and both session will be at a resolution of 1280x720. .EXAMPLE server01,server02 | Connect-Mstsc -User contoso\jaapbrasser -Password (ConvertTo-SecureString 'supersecretpw' -AsPlainText -Force) -Wait Description ----------- RDP sessions to server01 will be created, once the mstsc process is closed the session next session is opened to server02. Using the credentials of contoso\jaapbrasser and both session will be at a resolution of 1280x720. .EXAMPLE Connect-Mstsc -ComputerName server01:3389 -User contoso\jaapbrasser -Password (ConvertTo-SecureString 'supersecretpw' -AsPlainText -Force) -Admin -MultiMon Description ----------- A RDP session to server01 at port 3389 will be created using the credentials of contoso\jaapbrasser and the /admin and /multimon switches will be set for mstsc .EXAMPLE Connect-Mstsc -ComputerName server01:3389 -User contoso\jaapbrasser -Password (ConvertTo-SecureString 'supersecretpw' -AsPlainText -Force) -Public Description ----------- A RDP session to server01 at port 3389 will be created using the credentials of contoso\jaapbrasser and the /public switches will be set for mstsc .EXAMPLE Connect-Mstsc -ComputerName 192.168.1.10 -Credential $Cred Description ----------- A RDP session to the system at 192.168.1.10 will be created using the credentials stored in the $cred variable. .EXAMPLE Get-AzureVM | Get-AzureEndPoint -Name 'Remote Desktop' | ForEach-Object { Connect-Mstsc -ComputerName ($_.Vip,$_.Port -join ':') -User contoso\jaapbrasser -Password (ConvertTo-SecureString 'supersecretpw' -AsPlainText -Force) } Description ----------- A RDP session is started for each Azure Virtual Machine with the user contoso\jaapbrasser and password supersecretpw .EXAMPLE PowerShell.exe -Command "& {. .\Connect-Mstsc.ps1; Connect-Mstsc server01 contoso\jaapbrasser (ConvertTo-SecureString 'supersecretpw' -AsPlainText -Force) -Admin}" Description ----------- An remote desktop session to server01 will be created using the credentials of contoso\jaapbrasser connecting to the administrative session, this example can be used when scheduling tasks or for batch files. #> [cmdletbinding(SupportsShouldProcess,DefaultParametersetName='UserPassword')] param ( [Parameter(Mandatory=$true, ValueFromPipeline=$true, ValueFromPipelineByPropertyName=$true, Position=0)] [Alias('CN')] [string[]] $ComputerName, [Parameter(ParameterSetName='UserPassword',Mandatory=$true,Position=1)] [Alias('U')] [string] $User, [Parameter(ParameterSetName='UserPassword',Mandatory=$true,Position=2)] [Alias('P')] [string] $Password, [Parameter(ParameterSetName='Credential',Mandatory=$true,Position=1)] [Alias('C')] [PSCredential] $Credential, [Alias('A')] [switch] $Admin, [Alias('MM')] [switch] $MultiMon, [Alias('F')] [switch] $FullScreen, [Alias('Pu')] [switch] $Public, [Alias('W')] [int] $Width, [Alias('H')] [int] $Height, [Alias('WT')] [switch] $Wait ) begin { [string]$MstscArguments = '' switch ($true) { {$Admin} {$MstscArguments += '/admin '} {$MultiMon} {$MstscArguments += '/multimon '} {$FullScreen} {$MstscArguments += '/f '} {$Public} {$MstscArguments += '/public '} {$Width} {$MstscArguments += "/w:$Width "} {$Height} {$MstscArguments += "/h:$Height "} } if ($Credential) { $User = $Credential.UserName $Password = $Credential.GetNetworkCredential().Password } } process { foreach ($Computer in $ComputerName) { $ProcessInfo = New-Object System.Diagnostics.ProcessStartInfo $Process = New-Object System.Diagnostics.Process # Remove the port number for CmdKey otherwise credentials are not entered correctly if ($Computer.Contains(':')) { $ComputerCmdkey = ($Computer -split ':')[0] } else { $ComputerCmdkey = $Computer } $ProcessInfo.FileName = "$($env:SystemRoot)\system32\cmdkey.exe" $ProcessInfo.Arguments = "/generic:TERMSRV/$ComputerCmdkey /user:$User /pass:$($Password)" $ProcessInfo.WindowStyle = [System.Diagnostics.ProcessWindowStyle]::Hidden $Process.StartInfo = $ProcessInfo if ($PSCmdlet.ShouldProcess($ComputerCmdkey,'Adding credentials to store')) { [void]$Process.Start() } $ProcessInfo.FileName = "$($env:SystemRoot)\system32\mstsc.exe" $ProcessInfo.Arguments = "$MstscArguments /v $Computer" $ProcessInfo.WindowStyle = [System.Diagnostics.ProcessWindowStyle]::Normal $Process.StartInfo = $ProcessInfo if ($PSCmdlet.ShouldProcess($Computer,'Connecting mstsc')) { [void]$Process.Start() if ($Wait) { $null = $Process.WaitForExit() } } } } } Set-Alias li Get-CMEC2Instances Set-Alias tts Convert-TextToSpeech Set-Alias npe New-CMEasyPassword |