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wat.ps1
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wat.ps1
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<#
.SYNOPSIS
WAT - Windows ACME Tool
.DESCRIPTION
This is a client for signing certificates with an ACME-server implemented as a single powershell script.
This tool has no additional requirements.
This work is inspired by the commonly used linux/unix script dehydrated.
If you are serious about the safty of the crypto stuff, please have a look at the Create-Certificate function.
This work is published under:
MIT License
Copyright (c) 2017 Ludwig Behm
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
.INPUTS
System.String[] $Domains
Specify a list of domain names. The first is used as CommonName of your certificate and the following are used in the SubjectAlternateName attribute
You can query for multible certificates with: (("example.com", "www.example.com"), ("jon.doe.xy")) | .\wat.ps1
.OUTPUTS
System.Security.Cryptography.X509Certificates.X509Certificate2
.EXAMPLE
.\wat.ps1 example.com
Basic usage for issuing a certificate for domain example.com
.EXAMPLE
.\wat.ps1 example.com -ContactEmail me@example.com
Updating the registration with given email address
.EXAMPLE
.\wat.ps1 -Domain "example.com" -WellKnown D:\inetpub\.well-known\acme-challenge
Placing the verification tokens in the specified directory
.EXAMPLE
.\wat.ps1 -Domain ("example.com", "www.example.com") -Staging
Including example.com and www.example.com in the SubjectAlternateName attribute of the certificate
Using the Let'sEncrypt staging environment for testing purpose
.EXAMPLE
$certs = (("example.com", "www.example.com"), ("jon.doe.xy")) | .\wat.ps1
Working a set of 2 certificates.
Certificate 1:
Name: example.com
Domains: example.com, www.example.com
Certificate 2:
Name: jon.doe.xy
Domains: jon.doe.xy
.EXAMPLE
C:\Scripts\wat\wat.ps1 -Domains "example.com" -WellKnown C:\inetpub\well-known\acme-challenge -AcceptTerms -AutoFix -Context LocalMachine
This is my entire config (as scheduled task) to update the SMTP Certificate in one of my ExchangeServers.
After the initial set up and binding of the Certificat to the SMTP service (e.g. in the ECP GUI), I don't have to update any ExchangeServer configuration every time the certificate is renewed.
That's what I call In-Place-Renewal - I didn't find anything on the web to this mechanism.
.NOTES
This script uses only Windows components
For the ACME account a RSACng-Key is used and stored in the system
For the use in certificates, private keys are generated in the Create-Certificate function
#>
Param (
# Specify a list of domain names.
# The first is used as CommonName of your certificate.
# Every domain name is added as SubjectAlternateName (SAN).
# The Domains parameter can also be provided as piped input. Please be sure to define arrays of string arrays in this case.
[Parameter(
Position = 0,
Mandatory = $true,
ValueFromPipeline = $true,
ValueFromPipelineByPropertyName = $true,
HelpMessage = "Specify a list of domain names. The first is used as CommonName of your certificate."
)]
[String[]] $Domains,
# E-mail addresses that are linked to the account
[String[]] $Email,
# Discards the ACME account key and performs a complete new account registration
[Switch] $ResetRegistration,
# Force update of the account information (maybe you fiddled with the account.json file)
[Switch] $RenewRegistration,
# Force renew of certificate even if it is longer valid than value in RenewDays
[Switch] $RenewCertificate,
# Create complete new private key and certificate
[Switch] $RecreateCertificate,
# Regenerate private keys instead of just signing new certificates on renewal
[Switch] $RenewPrivateKey,
# Adding CSR feature indicating that OCSP stapling should be mandatory
[Switch] $OcspMustStaple,
# Path to certificate authority (default: https://acme-v01.api.letsencrypt.org/directory)
[uri] $CA,
# Accept CAs terms of service
[Switch] $AcceptTerms,
# Using the staging environment of Let'sEncrypt if -CA isn't specified
[Switch] $Staging,
# Which algorithm should be used?
[ValidateSet("Rsa", "ECDSA_P256", "ECDSA_P384")]
[System.Security.Cryptography.CngAlgorithm] $KeyAlgo = [System.Security.Cryptography.CngAlgorithm]::Rsa,
# Size of rsa keys (default: 4096)
# Possible values are between 2048 and 4096 and a multiple of 64 (e.g. 3072 is possible)
[ValidateScript({ ($_%64) -eq 0 -and $_ -ge 2048 -and $_ -le 4096 })]
[int] $KeySize = 4096,
# Minimum days before expiration to automatically renew certificate (default: 30)
[int] $RenewDays = 30,
# Which challenge should be used? (default: http-01)
[ValidateSet("http-01", "dns-01", "tls-sni-01")]
[String] $ChallengeType = "http-01",
# Currently only acme1-boulder dialect is tested
[ValidateSet("acme1-boulder", "acme2-boulder", "acme1")]
[String] $ACMEVersion = "acme1-boulder",
# Base directory for account config and generated certificates
[System.IO.DirectoryInfo] $BaseDir = (Split-Path -Parent $MyInvocation.MyCommand.Definition),
# Output directory for generated certificates
[System.IO.DirectoryInfo] $CertDir = "$BaseDir\Certs",
# Directory for account config and registration information
[System.IO.DirectoryInfo] $AccountDir = "$BaseDir\Accounts",
# Output directory for challenge-tokens to be served by webserver or deployed in -onChallenge
[System.IO.DirectoryInfo] $WellKnown = "C:\inetpub\wwwroot\.well-known\acme-challenge",
# Lockfile location, to prevent concurrent access
[System.IO.FileInfo] $LockFile = "$BaseDir\lock",
# Don't use lockfile (potentially dangerous!)
[Switch] $NoLock,
# Password to encrypt the exported certificate files (only applies to -ExportPfx and -ExportPkcs12)
[Security.SecureString] $ExportPassword = (new-object System.Security.SecureString),
# Export the certificate in PFX format (please use -ExportPassword)
[Switch] $ExportPfx,
# Export the certificate in Pkcs12 format (please use -ExportPassword)
[Switch] $ExportPkcs12,
# Export the certificate as a .crt public certificate file (Only public certificate without private key)
[Switch] $ExportCert,
# Export the certificate with private key in Base64 encoded PEM format (Warning: private key is NOT encrypted)
[Switch] $ExportPem,
# Export the certificate without private key in Base64 encoded PEM format
[Switch] $ExportPemCert,
# Export the private key in Base64 encoded PEM format (Warning: private key is NOT encrypted)
[Switch] $ExportPemKey,
# Export the certificate of the Issuer (e.g. Let'sEncrypt) in Base64 encoded PEM format
[Switch] $ExportIssuerPem,
[ValidateSet("ASCII", "UTF8", "UTF32", "UTF7", "BigEndianUnicode", "Default", "OEM", "Unicode")]
[string] $ExportPemEncoding = "ASCII",
# Script to be invoked with challenge token receiving the following parameter:
# Domain - The domain name you want to verify
# Token / FQDN - The file name for http-01 or domain name for dns-01 and tls-sni-01 challenges
# KeyAuthorization / Certificate - The value you have to place in the file or dns TXT record or the Certificate for tls-sni-01 challenges
[System.Management.Automation.ScriptBlock] $onChallenge,
# Script to be invoked after completing the challenge receiving the same parameter as -onChallenge with the addition of the response status 'valid' or 'invalid' as 4th parameter
[System.Management.Automation.ScriptBlock] $onChallengeCleanup,
# Don't verify the DNS record after executing onChallenge (applies only to dns-01 challenges)
[switch] $NoDnsTest,
# Internal identifier of the ACME account
[String] $InternalAccountIdentifier = "ACMEDefaultAccount",
# Which algorithm should be used for the ACME account key?
[ValidateSet("Rsa", "ECDSA_P256", "ECDSA_P384")]
[System.Security.Cryptography.CngAlgorithm] $AccountKeyAlgo = [System.Security.Cryptography.CngAlgorithm]::Rsa,
# Try to fix common problems automatically.
# This includes:
# - Creating new account with existing configuration if AccountKey is missing (this overwrites account id/data)
[Switch] $AutoFix,
# The place to save the certificate and keys
[System.Security.Cryptography.X509Certificates.StoreLocation] $Context = [System.Security.Cryptography.X509Certificates.StoreLocation]::CurrentUser
)
Begin {
function die {
param(
[System.Management.Automation.ErrorRecord] $Exception,
[string] $Message = "",
[int] $ExitCode = 1,
[int] $EventId = 0,
[string] $LogName = "Windows PowerShell",
[string] $Source = "PowerShell",
[int] $Category = 0,
[System.Diagnostics.EventLogEntryType] $EntryType = [System.Diagnostics.EventLogEntryType]::Error,
[switch] $DontRemoveLock
)
try {
[string] $FullDescription = "[$($AppName)] $($Message)"
if ($Exception -ne $null) {
$FullDescription += "`n$($Exception.FullyQualifiedErrorId)"
$FullDescription += "`nExceptionMessage: $($Exception.Exception.Message)"
if ($Exception.ErrorDetails -ne $null) {
$FullDescription += "`n$($Exception.ErrorDetails.Message)"
}
$FullDescription += "`n$($Exception.InvocationInfo.PositionMessage)"
$FullDescription += "`nCategoryInfo: $($Exception.CategoryInfo.GetMessage())"
if ($Exception.PSObject.Members['ScriptStackTrace'] -ne $null) {
$FullDescription += "`nStackTrace:`n$($Exception.ScriptStackTrace)"
}
$FullDescription += "`n$($Exception.Exception.StackTrace)"
}
Write-Eventlog -EntryType $EntryType -LogName $LogName -Source $Source -Category $Category -EventId $EventId -Message $FullDescription
Write-Host $FullDescription -ForegroundColor Red -BackgroundColor Black
if (-not $DontRemoveLock) { Remove-Lock }
Exit $ExitCode
} catch {
Write-Host " X An unexpected Error occured resulting in another error while handling your first error."
Write-Host $_.FullyQualifiedErrorId
Exit $ExitCode
}
}
trap [Exception] { die -Exception $_ }
Set-PSDebug -Strict
Set-StrictMode -Version 2
$ErrorActionPreference = [System.Management.Automation.ActionPreference]::Stop
$Error.Clear()
function Create-Lock([System.IO.FileInfo] $Path = $LockFile) {
if ($NoLock) { return }
if ($Path.Exists) {die -Message "Lock file $Path present, aborting." -DontRemoveLock}
try {
[IO.File]::OpenWrite($Path).Close()
$PID | Out-File $Path
} catch {
die -Message "LOCKFILE $Path is not writable, aborting."
}
}
function Remove-Lock([System.IO.FileInfo] $Path = $LockFile) {
if ($NoLock) { return }
Remove-Item $Path -ErrorAction SilentlyContinue
}
function Invoke-SignedWebRequest([uri] $Uri, [Microsoft.PowerShell.Commands.WebRequestMethod] $Method = [Microsoft.PowerShell.Commands.WebRequestMethod]::Post, [String] $Resource, [hashtable] $Payload) {
$Payload.resource = $Resource
$body = @{
header = Get-JWKHeader;
protected = Encode-UrlBase64 -Object (Get-JWKHeader -Nonce (Get-ACMENonce));
payload = Encode-UrlBase64 -Object $Payload;
}
$body.signature = Get-JWSignature -Value "$($body.protected).$($body.payload)"
[String] $json = ConvertTo-Json -InputObject $body -Compress
try {
$resp = Invoke-WebRequest -Uri $Uri -Method $Method -Body $json -ContentType 'application/json' -UseBasicParsing -UserAgent $UserAgent
} catch [System.Net.WebException] {
$acmeError = $_.ErrorDetails.Message | ConvertFrom-Json
if ($acmeError -ne $null) {
$errType = $acmeError.type.Split(':')|Select-Object -Last 1
Write-Host " ! Error[$($errType)]: $($acmeError.detail)"
throw $errType
}
die -Exception $_
}
$resp.Content|ConvertFrom-Json
}
function Get-ACMENonce([uri] $Uri = $CA) {
$resp = Invoke-WebRequest -Uri $Uri -Method Head -UseBasicParsing -UserAgent $UserAgent
if (-not $resp.Headers.ContainsKey('Replay-Nonce')) {throw "Can't fetch Nonce"}
$resp.Headers['Replay-Nonce']
}
function Get-JWKHeader([System.Security.Cryptography.AsymmetricAlgorithm] $PrivateKey = $AccountKey, [String] $Nonce) {
$export = $PrivateKey.ExportParameters($false)
$header = @{
alg = "RS256";
jwk = @{
kty = "RSA";
};
}
switch ($PrivateKey.Key.Algorithm.Algorithm) {
"RSA" {
$header.jwk.e = Encode-UrlBase64 -Bytes $export.Exponent
$header.jwk.n = Encode-UrlBase64 -Bytes $export.Modulus
}
"ECDSA_P256" {
$header.alg = "ES256"
$header.jwk.kty = "EC"
$header.jwk.crv = "P-256"
$header.jwk.x = Encode-UrlBase64 -Bytes $export.Q.X
$header.jwk.y = Encode-UrlBase64 -Bytes $export.Q.Y
}
"ECDSA_P384" {
$header.alg = "ES384"
$header.jwk.kty = "EC"
$header.jwk.crv = "P-384"
$header.jwk.x = Encode-UrlBase64 -Bytes $export.Q.X
$header.jwk.y = Encode-UrlBase64 -Bytes $export.Q.Y
}
}
if ($Nonce -ne "") { $header.nonce = $Nonce }
$header
}
function Get-JWSignature([String] $Value, [System.Security.Cryptography.AsymmetricAlgorithm] $PrivateKey = $AccountKey) {
switch ($PrivateKey.Key.Algorithm.Algorithm) {
"RSA" { Encode-UrlBase64 -Bytes ($PrivateKey.SignData([System.Text.Encoding]::UTF8.GetBytes($Value), [System.Security.Cryptography.HashAlgorithmName]::SHA256, [System.Security.Cryptography.RSASignaturePadding]::Pkcs1)) }
"ECDSA_P256" { Encode-UrlBase64 -Bytes ($PrivateKey.SignData([System.Text.Encoding]::UTF8.GetBytes($Value), [System.Security.Cryptography.HashAlgorithmName]::SHA256)) }
"ECDSA_P384" { Encode-UrlBase64 -Bytes ($PrivateKey.SignData([System.Text.Encoding]::UTF8.GetBytes($Value), [System.Security.Cryptography.HashAlgorithmName]::SHA384)) }
}
}
function Get-ACMEDirectory([uri] $Uri) {
[hashtable] $Directory = @{
"newNonce" = "";
"newAccount" = "";
"newAuthz" = "";
"newOrder" = "";
"keyChange" = "";
"revokeCert" = "";
"termsOfService" = "";
}
$json = (Invoke-WebRequest -Uri $Uri -UseBasicParsing -UserAgent $UserAgent).Content | ConvertFrom-Json
if ($ACMEVersion -eq "acme1-boulder") {
# WAT moment #1:
# They invent acme
# Let'sEncrypt is first in implementation
# Fundamentally changes the very first api call! That single point that configures every client!
# WAT?
$Directory.newAccount = $json.'new-reg'
$Directory.account = $json.'new-reg' -replace 'new-reg', 'reg/'
$Directory.newAuthz = $json.'new-authz'
$Directory.authz = $json.'new-authz' -replace 'new-authz', 'authz/'
$Directory.newOrder = $json.'new-cert'
$Directory.order = $json.'new-cert' -replace 'new-cert', 'cert/'
$Directory.keyChange = $json.'key-change'
$Directory.revokeCert = $json.'revoke-cert'
$Directory.termsOfService = $json.meta.'terms-of-service'
} else {
$json.psobject.properties|% {$Directory[$_.Name] = $_.Value }
}
$Directory
}
function Get-PrivateKey([string] $Name, [int] $Size = 4096, [System.Security.Cryptography.CngAlgorithm] $Algorithm, [System.Security.Cryptography.CngKeyUsages] $KeyUsage = [System.Security.Cryptography.CngKeyUsages]::Signing, [System.Security.Cryptography.CngExportPolicies] $ExportPolicy = [System.Security.Cryptography.CngExportPolicies]::None) {
switch ($Algorithm.Algorithm) {
"RSA" {
[type] $RetType = [System.Security.Cryptography.RSACng]
}
"ECDSA_P256" {
$Size = 256
[type] $RetType = [System.Security.Cryptography.ECDsaCng]
}
"ECDSA_P384" {
$Size = 384
[type] $RetType = [System.Security.Cryptography.ECDsaCng]
}
}
if ($ResetRegistration -and [System.Security.Cryptography.CngKey]::Exists($Name)) {
[System.Security.Cryptography.CngKey]::Open($Name).Delete()
}
if ([System.Security.Cryptography.CngKey]::Exists($Name)) {
New-Object -TypeName $RetType.FullName -ArgumentList ([System.Security.Cryptography.CngKey]::Open($Name))
} else {
[System.Security.Cryptography.CngKeyCreationParameters] $keyCreationParams = New-Object System.Security.Cryptography.CngKeyCreationParameters -Property @{
"ExportPolicy" = $ExportPolicy;
"KeyUsage" = $KeyUsage;
}
$keyCreationParams.Parameters.Add([System.Security.Cryptography.CngProperty](New-Object System.Security.Cryptography.CngProperty "Length", ([BitConverter]::GetBytes($Size)), ([System.Security.Cryptography.CngPropertyOptions]::None)))
New-Object -TypeName $RetType.FullName -ArgumentList ([System.Security.Cryptography.CngKey]::Create($Algorithm, $Name, $keyCreationParams))
}
}
function Get-ACMEPrivateKeyThumbprint {
$export = $AccountKey.ExportParameters($false)
switch ($AccountKey.Key.Algorithm.Algorithm) {
"RSA" { [string] $j = '{"e":"' + (Encode-UrlBase64 -Bytes $export.Exponent) + '","kty":"RSA","n":"' + (Encode-UrlBase64 -Bytes $export.Modulus) + '"}' }
"ECDSA_P256" { [string] $j = '{"crv":"P-256","kty":"EC","x":"' + (Encode-UrlBase64 -Bytes $export.Q.X) + '","y":"' + (Encode-UrlBase64 -Bytes $export.Q.Y) + '"}' }
"ECDSA_P384" { [string] $j = '{"crv":"P-384","kty":"EC","x":"' + (Encode-UrlBase64 -Bytes $export.Q.X) + '","y":"' + (Encode-UrlBase64 -Bytes $export.Q.Y) + '"}' }
}
Encode-UrlBase64 -Bytes (([System.Security.Cryptography.SHA256Cng]::Create()).ComputeHash([System.Text.Encoding]::UTF8.GetBytes($j)))
}
function Get-CngPrivateKeyFromCertificate([Parameter(Mandatory = $true, ValueFromPipeline = $true)][System.Security.Cryptography.X509Certificates.X509Certificate2] $Cert) {
# well, by now it should be obvious whats going on here
# feel free to test it with:
# gci cert:\CurrentUser\my | Get-CngPrivateKeyFromCertificate
Begin {
if (-not ("WINAPI.crypt32" -as [type])) {
Add-Type -Namespace WINAPI -Name crypt32 -MemberDefinition @"
[DllImport("crypt32.dll", SetLastError = true)]
[return: MarshalAs(UnmanagedType.Bool)]
public static extern bool CryptAcquireCertificatePrivateKey(
IntPtr pCert,
uint dwFlags,
IntPtr pvReserved, // must be null
[Out] out Microsoft.Win32.SafeHandles.SafeNCryptKeyHandle phCryptProvOrNCryptKey,
[Out] out int dwKeySpec,
[Out, MarshalAs(UnmanagedType.Bool)] out bool pfCallerFreeProvOrNCryptKey);
"@
}
}
Process {
[IntPtr] $handle = $Cert.Handle
[Microsoft.Win32.SafeHandles.SafeNCryptKeyHandle] $key = $null
[int] $keySpec = 0
[bool] $free = $false
[bool] $ret = [WINAPI.crypt32]::CryptAcquireCertificatePrivateKey($handle, 0x00040000 <#CRYPT_ACQUIRE_ONLY_NCRYPT_KEY_FLAG#>, 0, [ref]$key, [ref]$keySpec, [ref]$free)
if (-not $ret) { throw "Can't acquire NCRYPT private key" }
[System.Security.Cryptography.CngKey] $cngkey = [System.Security.Cryptography.CngKey]::Open($key, [System.Security.Cryptography.CngKeyHandleOpenOptions]::None)
if ($cngkey -eq $null) { throw "Can't acquire private CngKey" }
$cngkey
}
}
function ConvertTo-PEM([Parameter(Mandatory = $true, ValueFromPipeline = $true)][System.Security.Cryptography.X509Certificates.X509Certificate2] $Cert, [Switch] $Public, [Switch] $Private) {
if ($Public) {
Format-Pem -Bytes ($Cert.Export([System.Security.Cryptography.X509Certificates.X509ContentType]::Cert)) -Header "CERTIFICATE"
}
if ($Private) {
if (-not $Cert.HasPrivateKey) {throw "Can't get private key"}
$key = $Cert.PrivateKey
if ($key -eq $null) {
$key = Get-CngPrivateKeyFromCertificate -Cert $Cert
switch ($key.AlgorithmGroup.AlgorithmGroup) {
RSA { ConvertRSATo-Pem -PrivateKey (New-Object -TypeName System.Security.Cryptography.RSACng -ArgumentList ($key)) }
ECDSA { ConvertECDsaTo-Pem -PrivateKey (New-Object -TypeName System.Security.Cryptography.ECDsaCng -ArgumentList ($key)) }
ECDH { Write-Host " ! Exports of EC Certificates in PEM format isn't supported on your system." }
}
} else { ConvertRSATo-Pem -PrivateKey $key }
}
}
function Format-Pem([byte[]]$Bytes, [string]$Header) {
[string] $out = ""
if ($Header.Length) {
$out += "-----BEGIN $($Header)-----`n"
}
[string] $base64 = [System.Convert]::ToBase64String($Bytes)
for ([int] $i = 0; $i -lt $base64.Length; $i += 64) {
$out += $base64.Substring($i, [System.Math]::Min(64, $base64.Length - $i)) + "`n"
}
if ($Header.Length) {
$out += "-----END $($Header)-----"
}
$out
}
function ConvertRSATo-Pem([System.Security.Cryptography.RSA] $PrivateKey) {
[System.Security.Cryptography.RSAParameters] $params = $PrivateKey.ExportParameters($true)
Format-Pem -Bytes (
(Encode-ASN1Sequence (
(Encode-ASN1Integer 0), # version
(Encode-ASN1Integer $params.Modulus),
(Encode-ASN1Integer $params.Exponent),
(Encode-ASN1Integer $params.D),
(Encode-ASN1Integer $params.P),
(Encode-ASN1Integer $params.Q),
(Encode-ASN1Integer $params.DP),
(Encode-ASN1Integer $params.DQ),
(Encode-ASN1Integer $params.InverseQ)
))) -Header "RSA PRIVATE KEY"
}
function ConvertECDsaTo-Pem([System.Security.Cryptography.ECDsa] $PrivateKey) {
[System.Security.Cryptography.ECParameters] $params = $PrivateKey.ExportParameters($true)
if ($params.D -eq $null) {throw "Can't get private key"}
<#
ECPrivateKey ::= SEQUENCE {
version INTEGER { ecPrivkeyVer1(1) } (ecPrivkeyVer1),
privateKey OCTET STRING, $params.D
parameters [0] ECParameters {{ NamedCurve }} OPTIONAL,
publicKey [1] BIT STRING OPTIONAL CompressingOption, $params.Q.X, $params.Q.Y
}
#>
Format-Pem -Bytes (
(Encode-ASN1Sequence (
(Encode-ASN1Integer 1), # version
(Encode-ASN1OctetString $params.D), # privateKey
(Encode-ASN1Choice 0 (
[System.Security.Cryptography.CryptoConfig]::EncodeOID(([System.Security.Cryptography.Oid]($PrivateKey.Key.Algorithm.Algorithm)).Value))), # parameters / curve oid
(Encode-ASN1Choice 1 (
Encode-ASN1BitString (([byte[]]0x04) + $params.Q.X + $params.Q.Y))) # 0x04 uncompressed ECPoint, publicKey
))) -Header "EC PRIVATE KEY"
}
function Encode-ASN1OctetString([byte[]] $Data) {
[byte[]] $ret = (4)
$ret += Encode-ASN1ByteLength $Data.Count
$ret += $Data
$ret
}
function Encode-ASN1Integer([Parameter(Position = 0, ParameterSetName = 'Int')] [int] $Data, [Parameter(Position = 0, ParameterSetName = 'Bytes')] [byte[]] $Bytes) {
if ($PSCmdlet.ParameterSetName -eq 'Int') {
[byte[]] $val = [System.BitConverter]::GetBytes($Data)
if ([System.BitConverter]::IsLittleEndian) {[array]::Reverse($val)}
} else {
[byte[]] $val = $Bytes
}
[int] $leftPadLen = 0
for ([int] $i = 0; $i -lt $val.Count -and $val[$i] -eq 0; $i+=1) { $leftPadLen++ }
[byte[]] $trimed = $val|select -Skip $leftPadLen
[byte[]] $filtered = $val|? { $_ -eq 0}
if ($filtered -ne $null -and $filtered.Count -eq $val.Count) { # $val is array of 0
[byte[]] $sanitized = ([byte]0x0)
} else {
if ($trimed[0] -gt 0x7f) {
[byte[]] $sanitized = ([byte]0x0)
$sanitized += $trimed
} else {
[byte[]] $sanitized = $trimed
}
}
[byte[]] $ret = (2)
$ret += Encode-ASN1ByteLength -Length $sanitized.Count
$ret += $sanitized
$ret
}
function Encode-ASN1Sequence([byte[][]] $Data){
[byte[]] $ret = (0x30)
$ret += Encode-ASN1ByteLength -Length ($Data|ForEach-Object -Begin {$i=0} -Process {$i+=([byte[]]$_).Count} -End {$i})
for ([int] $i = 0; $i -lt $Data.Count; $i++) {
$ret += $Data[$i]
}
$ret
}
function Encode-ASN1BitString([byte[]] $Data){
[byte[]] $ret = (0x03)
$ret += Encode-ASN1ByteLength ($Data.Count + 1)
$ret += 0x00 # number of padded bits (our bytes are always 8-based in length)
$ret += $Data
$ret
}
function Encode-ASN1Choice([int] $Value, [byte[]] $Data){
[byte[]] $ret = ((0xA0 -bor $Value))
$ret += Encode-ASN1ByteLength -Length $Data.Count
$ret += $Data
$ret
}
function Encode-ASN1ByteLength([int] $Length) {
if ($Length -lt 128) {
# Short form
[byte[]] $ret = ([byte] $Length)
} else {
# Long form
[int] $req = 0
[int] $t = $Length
while ($t -gt 0) {
$t = Shift-Right $t 8
$req++
}
[byte[]] $ret = (([byte]$req) -bor 0x80)
for ([int] $i = $req -1; $i -ge 0; $i--) {
$ret += [byte]((Shift-Right $Length (8*$i)) -band 0xff)
}
}
$ret
}
function Shift-Right([int] $Value, [int]$Count = 1) {
[math]::Floor($Value * [math]::Pow(2, $Count * -1))
}
function Get-AccountConfig {
Get-Content -Path $AccountConfig | ConvertFrom-Json | ConvertTo-Hashtable
}
function Verify-ACMELicense {
[String] $License = $Directory.termsOfService
if ($License -eq "") {return}
if ($AccountConfig.Exists) {
$config = Get-AccountConfig
if ($config.agreement -ne $License) {
if ($AcceptTerms) {
$config.agreement = $License
Update-ACMERegistration -Config $config
} else {
die -Message "The terms of service changed.`nTo use this certificate authority you have to agree to their terms of service which you can find here: $License`nTo accept these terms of service use -AcceptTerms."
}
}
} elseif (!$AcceptTerms) {
die -Message "To use this certificate authority you have to agree to their terms of service which you can find here: $License`nTo accept these terms of service use -AcceptTerms."
}
}
function Verify-ACMERegistration {
if (-not $AccountConfig.Exists -or $ResetRegistration) {
return Create-ACMERegistration
}
# check $Email for changes
if ($Email -ne $null) {
$config = Get-AccountConfig
if (-not (Compare-Lists $Email $config.contact)) {
$config.contact = $Email
return Update-ACMERegistration -Config $config
}
}
if ($RenewRegistration) {
return Update-ACMERegistration
}
}
function Create-ACMERegistration([hashtable] $Config) {
try {
$req = @{ agreement = $Directory.termsOfService; }
if ($Config -ne $null -and $Config.contact -ne $null) {
$req.contact = $Config.contact
} elseif ($Email -ne $null) {
$req.contact = $Email
}
$resp = Invoke-SignedWebRequest -Uri $Directory.newAccount -Resource new-reg -Payload $req
} catch {
switch ($_.Exception.Message) {
'invalidEmail' {
if ($AutoFix) {
Write-Host " ! AutoFix: removing Contact from request. You will not receive notifications!"
$Config.contact = $null
Update-ACMERegistration $Config
Write-Host " + AutoFix: successful"
return
}
die -Message "Email domain verification failed! Check your email address!"
}
'malformed' { # AccountKey is assigned to different account; possible reason I can think of: (re)moved/deleted account file/directory => only rescue would be creation of new account
if ($AutoFix) {
Write-Host " ! AutoFix: applying -ResetRegistration and recreating AccountKey"
$AutoFix = $false # disable due to recursive loop
[System.Security.Cryptography.CngKey]::Open($AccHash).Delete()
$AccountKey = Get-RSACng -Name $AccHash
Create-ACMERegistration $Config
$AutoFix = $true
Write-Host " + AutoFix: successful"
return
}
die -Message "Local account data is corrupt. Please recreate account with -ResetRegistration"
}
}
die -Exception $_
}
$resp.agreement = $Directory.termsOfService
$resp | ConvertTo-Json -Compress | Out-File -FilePath $AccountConfig
}
function Update-ACMERegistration($Config = (Get-AccountConfig)) {
try {
$resp = Invoke-SignedWebRequest -Uri ($Directory.account + $Config.id) -Resource reg -Payload $Config
} catch {
switch ($_.Exception.Message) {
'invalidEmail' {
if ($AutoFix) {
Write-Host " ! AutoFix: removing Contact from request. You will not receive notifications!"
$Config.contact = $null
Update-ACMERegistration $Config
Write-Host " + AutoFix: successful"
return
}
die -Message "Email domain verification failed! Check your email address!"
}
'malformed' { # id in url is missing or -lt 0; possible reason I can think of: (re)moved account file => only rescue would be creation of new account
if ($AutoFix) {
Write-Host " ! AutoFix: applying -ResetRegistration and recreating account"
Create-ACMERegistration $Config
Write-Host " + AutoFix: successful"
return
}
die -Message "Local account data is corrupt. Please recreate account with -ResetRegistration"
}
'unauthorized' { # wrong account key; maybe copied account directory to different server or runs in different user context?
if ($AutoFix) {
Write-Host " ! AutoFix: applying -ResetRegistration and recreating account"
Create-ACMERegistration $Config
Write-Host " + AutoFix: successful"
return
}
die -Message "Local account data is corrupt. Please recreate account with -ResetRegistration"
}
}
die -Exception $_
}
$resp | ConvertTo-Json -Compress | Out-File -FilePath $AccountConfig
}
function Encode-UrlBase64 {
Param(
[Parameter(Mandatory=$true, ValueFromPipeline=$true, ParameterSetName='String')]
[String] $String,
[Parameter(Mandatory=$true, ValueFromPipeline=$false, ParameterSetName='Bytes')]
[byte[]] $Bytes,
[Parameter(Mandatory=$true, ValueFromPipeline=$true, ParameterSetName='Object')]
[hashtable] $Object
)
if ($PSCmdlet.ParameterSetName -eq 'Object') {
[byte[]] $Bytes = [System.Text.Encoding]::UTF8.GetBytes((ConvertTo-Json -InputObject $Object -Compress))
} elseif ($PSCmdlet.ParameterSetName -eq 'String') {
[byte[]] $Bytes = [System.Text.Encoding]::UTF8.GetBytes($String)
}
[Convert]::ToBase64String($Bytes).TrimEnd("=").Replace('+', '-').Replace('/', '_')
}
function Decode-UrlBase64 {
Param(
[Parameter(Mandatory=$true, ValueFromPipeline=$true, ParameterSetName='String')]
[String] $Value,
[Switch] $AsString,
[Switch] $AsObject
)
if ($Value.Length % 4 -gt 0) {
$Value = $Value + ('=' * (4 - ($Value.Length % 4)))
}
$Value = $Value.Replace('-', '+').Replace('_', '/')
[byte[]] $Bytes = [Convert]::FromBase64String($Value)
if ($AsString) {
[System.Text.Encoding]::UTF8.GetString($Bytes)
} elseif ($AsObject) {
ConvertFrom-Json -InputObject ([System.Text.Encoding]::UTF8.GetString($Bytes))
} else {
$Bytes
}
}
function ConvertTo-Hashtable([Parameter(Mandatory=$true, ValueFromPipeline=$true)] $Object) {
$Object.psobject.Properties|% -Begin {[hashtable] $h = @{}} -Process { $h[$_.Name] = $_.Value } -End { $h }
}
function Compare-Lists([array] $a = $null, [array] $b = $null) {
if ($a -eq $null -and $b -eq $null) { return $true } # both are $null
if ($a -eq $null -or $b -eq $null) { return $false } # only one of them $null?
$a = $a|% {return $_.ToLower()}
$b = $b|% {return $_.ToLower()}
if ($a.Count -ne $b.Count) { return $false }
for ([int] $i = 0; $i -lt $a.Count; $i++) {
if ($a.IndexOf($b[$i]) -eq -1 -or $b.IndexOf($a[$i]) -eq -1) {
return $false
}
}
$true
}
function Verify-Certificate([String] $Domain, [String[]] $SAN) {
if ($ResetRegistration -or $RenewCertificate -or $RecreateCertificate) { return $false }
[System.Security.Cryptography.X509Certificates.X509Certificate2] $cert = Get-LastCertificate -Domain $Domain -SAN $SAN
if ($cert -eq $null) {
Write-Host " ! Can't find existing certificate. Creating new..."
return $false
}
Write-Host " + Checking expire date of existing cert..."
Write-Host " + Valid till $($cert.NotAfter) " -NoNewline
[System.DateTime] $offDate = (Get-Date).AddDays($RenewDays)
if ($cert.NotAfter -gt $offDate) {
Write-Host "(Longer than $(($cert.NotAfter - $offDate).Days) days)."
} else {
Write-Host "(Less than $(($cert.NotAfter - $offDate).Days) days). Renewing!"
return $false
}
# passed all checks
return $true
}
function Get-CertificateFriendlyName([String] $Domain) { "$($Domain) - $($AccHash)" }
function Get-CertificateAlternateDomainNames([Parameter(Mandatory = $true, ValueFromPipeline = $true)][System.Security.Cryptography.X509Certificates.X509Certificate2] $Cert) {
if (($Cert | Get-Member -Name DnsNameList) -ne $null -and $Cert.DnsNameList -ne $null -and $Cert.DnsNameList.Count -gt 0) {
$Cert.DnsNameList|% {$_.ToString()}
} else { # fallback
$Cert.Extensions["2.5.29.17"].Format($false)|% {$_ -split ', '}|? {($_ -split '=')[0] -like '*DNS*'}|% {($_ -split '=')[1]}
}
}
function Get-LastCertificate([String] $Domain, [string[]] $SAN) {
[string[]] $DnsNameList = ($Domain)
if ($SAN -ne $null) { $DnsNameList += $SAN }
[System.Security.Cryptography.X509Certificates.X509Certificate2](gci "Cert:\$($Context)\My" |? {
$_.FriendlyName -eq (Get-CertificateFriendlyName $Domain) -and # Domain and CA check
(Compare-Lists (Get-CertificateAlternateDomainNames $_) $DnsNameList) -and # SAN/DnsNamesList check
$_.HasPrivateKey -and
($key = $_ | Get-CngPrivateKeyFromCertificate) -ne $null -and # PK check
$key.Algorithm.Algorithm.Replace("ECDH_", "ECDSA_") -eq $KeyAlgo.Algorithm -and # PK ExchAlgo check (global input)
# In Win7/2012R2 ECDSA_* keys will show up as ECDH_* - and also I can't export the private keys in pem format
# I don't know yet if I can fix that
($KeyAlgo -ne [System.Security.Cryptography.CngAlgorithm]::Rsa -or $key.KeySize -eq $KeySize) -and # Rsa PK size check (global input)
($_.Extensions["1.3.6.1.5.5.7.1.24"] -ne $null) -eq $OcspMustStaple # OcspMustStaple
} | Sort-Object -Property NotAfter -Descending | Select-Object -First 1)
}
function Get-CertificateIssuerCertificate([Parameter(Mandatory = $true, ValueFromPipeline = $true)][System.Security.Cryptography.X509Certificates.X509Certificate2] $Cert) {
# $issuerUrl = ($Cert.Extensions|? {$_.Oid.Value -eq "1.3.6.1.5.5.7.1.1"}).RawData|Decode-ASN1Sequence|? {($_|Decode-ASN1Sequence)[0].IsCAIssuer}|% {($_|Decode-ASN1Sequence)[1]|Decode-ASN1String}
[System.Security.Cryptography.X509Certificates.X509Extension] $oid = $Cert.Extensions["1.3.6.1.5.5.7.1.1"]
if ($oid -eq $null) { return }
[string] $CaInfo = $oid.Format($false)
if ($CaInfo.IndexOf("(1.3.6.1.5.5.7.48.2)") -eq -1) { return }
[int] $i = $CaInfo.IndexOf("URL=", $CaInfo.LastIndexOf("(1.3.6.1.5.5.7.48.2)")) +4
[uri] $uri = $CaInfo.Substring($i, [System.Math]::Min($CaInfo.Length, $(if ($CaInfo.IndexOf(",", $i) -ne -1) { $CaInfo.IndexOf(",", $i) } else { $CaInfo.Length })) - $i)
$resp = Invoke-WebRequest -UseBasicParsing -Uri $uri -Method Get
if ($resp.StatusCode -ne 200) { return }
New-Object -TypeName System.Security.Cryptography.X509Certificates.X509Certificate2 -ArgumentList ($resp.Content, "")
}
function Sign-Domain([String] $Domain, [String[]] $SAN) {
Verify-ACMEAuthorization $Domain
if ($SAN -ne $null) { $SAN |% { Verify-ACMEAuthorization $_ } }
[System.Security.Cryptography.X509Certificates.X509Certificate2] $OldCert = Get-LastCertificate -Domain $Domain -SAN $SAN
if ($RecreateCertificate -or $OldCert -eq $null) {
Create-Certificate -Domain $Domain -SAN $SAN
} else {
Renew-Certificate -OldCert $OldCert
}
}
function Verify-ACMEAuthorization([String] $Domain) {
Write-Host " + Requesting challenge for $($Domain)..."
$challenges = (Invoke-SignedWebRequest -Uri $Directory.newAuthz -Resource "new-authz" -Payload @{
"identifier" = @{
"type" = "dns";
"value" = $Domain;
}
}).challenges
if (($challenges|? {$_.status -eq "valid"}) -ne $null) { # any valid challange is ok
Write-Host " + Already validated!"
return
}
$challenge = $challenges|? {$_.type -eq $ChallengeType}
if ($challenge.status -ne "pending") { die -Message "Challenge status is '$($challenge.status)'. Can't continue!" }
[string] $keyAuthorization = "$($challenge.token).$(Get-ACMEPrivateKeyThumbprint)"
switch ($ChallengeType) {
'http-01' { &$onChallenge "$($Domain)" "$($challenge.token)" "$($keyAuthorization)" | Write-Host }
'dns-01' {
[string] $dnsAuthorization = Encode-UrlBase64 -Bytes ([System.Security.Cryptography.SHA256Cng]::Create().ComputeHash([System.Text.Encoding]::UTF8.GetBytes($keyAuthorization)))
[string] $dnsChallengeDN = "_acme-challenge.$($Domain)"
&$onChallenge "$($Domain)" "$($dnsChallengeDN)" "$($dnsAuthorization)" | Write-Host
if (-not $NoDnsTest) {
if ((Get-Command -Verb Resolve -Noun DnsName) -ne $null) {
Write-Host "Testing DNS record"
[string[]] $dnsServer = '8.8.8.8', '8.8.4.4' # use public servers
if (($rec = Resolve-DnsName -Name $dnsChallengeDN -Type TXT -Server $dnsServer -NoHostsFile -DnsOnly -ErrorAction SilentlyContinue) -eq $null -and ($Error|Select-Object -First 1).CategoryInfo.Category -eq [System.Management.Automation.ErrorCategory]::OperationTimeout) {$dnsServer = @()} # can't reach dns server => reset to default
while ((($rec = Resolve-DnsName -Name $dnsChallengeDN -Type TXT -Server $dnsServer -NoHostsFile -DnsOnly -ErrorAction SilentlyContinue) -eq $null -and ($Error|Select-Object -First 1).CategoryInfo.Category -eq [System.Management.Automation.ErrorCategory]::ResourceUnavailable) -or # NXDOMAIN
($rec -ne $null -and (($rec = $rec|? {$_ -is [Microsoft.DnsClient.Commands.DnsRecord_TXT]}|% {$_.Text}|? {$_ -eq $dnsAuthorization}) -eq $null -or $rec.Length -eq 0))) { # found TXT but not the right one
Write-Host -NoNewline "." # show some progress
Start-Sleep -Seconds 3 # be patient
}
Write-Host " "
}
}
}
'tls-sni-01' {
[string] $sniAuthorization = [System.BitConverter]::ToString([System.Security.Cryptography.SHA256Cng]::Create().ComputeHash([System.Text.Encoding]::UTF8.GetBytes($keyAuthorization))).Replace('-','').ToLower()
[string] $sniFqdn = "$($sniAuthorization.Substring(0, 32)).$($sniAuthorization.Substring(32, 32)).acme.invalid"
[System.Security.Cryptography.X509Certificates.X509Certificate2] $sniCert = Create-Certificate -Domain $sniFqdn -SelfSigned
&$onChallenge "$($Domain)" "$sniFqdn" $sniCert | Write-Host
}
}
Write-Host " + Responding to challenge for $($Domain)..."
$resp = Invoke-SignedWebRequest -Uri $challenge.uri -Resource 'challenge' -Payload @{
"keyAuthorization" = $keyAuthorization;
}
while ($resp.status -eq "pending") {
Start-Sleep -Seconds 1
$resp = (Invoke-WebRequest -Uri $challenge.uri -Method Get -UseBasicParsing).Content|ConvertFrom-Json
}
switch ($ChallengeType) {
'http-01' { &$onChallengeCleanup "$($Domain)" "$($challenge.token)" "$($keyAuthorization)" "$($resp.status)" | Write-Host }
'dns-01' { &$onChallengeCleanup "$($Domain)" "_acme-challenge.$($Domain)" "$($dnsAuthorization)" "$($resp.status)" | Write-Host }
'tls-sni-01' { &$onChallengeCleanup "$($Domain)" "$sniFqdn" $sniCert "$($resp.status)" | Write-Host }
}
if ($resp.status -eq "valid") {
Write-Host " + Challenge is valid!"
} elseif ($resp.status -eq "invalid") {
die -Message ("Challenge is invalid`n" + " ! Error[$($resp.error.type.Split(':')|Select-Object -Last 1)]: $($resp.error.detail)")
}
}
function Create-Certificate([String] $Domain, [String[]] $SAN, [Switch] $SelfSigned) {
# setup defaults
[int] $Size = $KeySize
[string] $HashAlgo = "SHA256"
$algoId = New-Object -ComObject X509Enrollment.CObjectId
# set crypto specific settings
switch ($KeyAlgo) {
([System.Security.Cryptography.CngAlgorithm]::Rsa) {
$algoId.InitializeFromAlgorithmName(3 <#XCN_CRYPT_PUBKEY_ALG_OID_GROUP_ID#>, 0 <#XCN_CRYPT_OID_INFO_PUBKEY_ANY#>, 0 <#AlgorithmFlagsNone#>, "RSA")
}
([System.Security.Cryptography.CngAlgorithm]::ECDsaP256) {
$algoId.InitializeFromAlgorithmName(3 <#XCN_CRYPT_PUBKEY_ALG_OID_GROUP_ID#>, 0 <#XCN_CRYPT_OID_INFO_PUBKEY_ANY#>, 0 <#AlgorithmFlagsNone#>, "ECDSA_P256")
$Size = 256
}
([System.Security.Cryptography.CngAlgorithm]::ECDsaP384) {
$algoId.InitializeFromAlgorithmName(3 <#XCN_CRYPT_PUBKEY_ALG_OID_GROUP_ID#>, 0 <#XCN_CRYPT_OID_INFO_PUBKEY_ANY#>, 0 <#AlgorithmFlagsNone#>, "ECDSA_P384")
$Size = 384
$HashAlgo = "SHA384"
}
}
Write-Host " + Creating request: ExchangeAlgorithm: $($KeyAlgo.Algorithm), KeySize: $($Size), HashAlgorithm: $($HashAlgo), OCSP-MustStaple: $(if($OcspMustStaple){"On"}else{"Off"})"
# create Key with CertEnroll API
$pk = New-Object -ComObject X509Enrollment.CX509PrivateKey -Property @{
Length = $Size;
ProviderName = "Microsoft Software Key Storage Provider";
ExportPolicy = ( # request for discussion!
1 -bor # XCN_NCRYPT_ALLOW_EXPORT_FLAG
2 -bor # XCN_NCRYPT_ALLOW_PLAINTEXT_EXPORT_FLAG
4 -bor # XCN_NCRYPT_ALLOW_ARCHIVING_FLAG
8 # XCN_NCRYPT_ALLOW_PLAINTEXT_ARCHIVING_FLAG
);
KeySpec = 1; # XCN_AT_KEYEXCHANGE
KeyUsage = (
1 -bor # XCN_NCRYPT_ALLOW_DECRYPT_FLAG
2 -bor # XCN_NCRYPT_ALLOW_SIGNING_FLAG
4 # XCN_NCRYPT_ALLOW_KEY_AGREEMENT_FLAG
);
Algorithm = $algoId;
MachineContext = ($Context -eq [System.Security.Cryptography.X509Certificates.StoreLocation]::LocalMachine);
}
$pk.Create()
# create request object
$request = if ($SelfSigned) { New-Object -ComObject X509Enrollment.CX509CertificateRequestCertificate }
else { New-Object -ComObject X509Enrollment.CX509CertificateRequestPkcs10 }
$request.InitializeFromPrivateKey($(
if ($Context -eq [System.Security.Cryptography.X509Certificates.StoreLocation]::LocalMachine) {
3 # ContextAdministratorForceMachine
} else {
1 # ContextUser
}
), $pk, "")
$request.SuppressDefaults = $true
# add Subject
$dn = New-Object -ComObject X509Enrollment.CX500DistinguishedName
$dn.Encode("CN=$($Domain)", 0) # XCN_CERT_NAME_STR_NONE = 0
$request.Subject = $dn
# sha256/384 signature
$hashId = New-Object -ComObject X509Enrollment.CObjectId
$hashId.InitializeFromValue(([System.Security.Cryptography.Oid]$HashAlgo).Value)
$request.HashAlgorithm = $hashId
# Key Usage
$extKeyUsage = New-Object -ComObject X509Enrollment.CX509ExtensionKeyUsage
$extKeyUsage.InitializeEncode([int][System.Security.Cryptography.X509Certificates.X509KeyUsageFlags](("DigitalSignature", "KeyEncipherment")))
$extKeyUsage.Critical = $true
$request.X509Extensions.Add($extKeyUsage)
# add extensions
$objectIds = New-Object -ComObject X509Enrollment.CObjectIds
# Serverauthentifizierung, Clientauthentifizierung
# Can't work with common friendly names because they vary based on your systems language.... WAT?
"1.3.6.1.5.5.7.3.1", "1.3.6.1.5.5.7.3.2"|% {
$objectId = New-Object -ComObject X509Enrollment.CObjectId
$objectId.InitializeFromValue($_)
$objectIds.Add($objectId)