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Create-KeyTab.ps1
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Create-KeyTab.ps1
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<#PSScriptInfo
.VERSION 1.0.2
.GUID 325f7f9a-87be-42ec-ba96-c5e423718284
.AUTHOR TRAB
.COMPANYNAME
.COPYRIGHT
.TAGS KeyTab Ktpass Key Tab
.LICENSEURI https://github.com/TheRealAdamBurford/Create-KeyTab/blob/master/LICENSE
.PROJECTURI https://github.com/TheRealAdamBurford/Create-KeyTab
.ICONURI
.EXTERNALMODULEDEPENDENCIES
.REQUIREDSCRIPTS
.EXTERNALSCRIPTDEPENDENCIES
.RELEASENOTES
.PRIVATEDATA
#>
<#
.DESCRIPTION
This scipt will generate off-line keytab files for use with Active Directory (AD). While the script is designed to work independently of AD, this script can be used with a wrapper script that uses Get-ADUser or Get-ADObject to retrieve the UPN of a samaccountname or a list of samaccountnames for use in batch processing of KeyTab creation. More information at https://therealadamburford.github.io/Create-KeyTab/
#>
##########################################################
###
### Create-KeyTab.ps1
###
### Created : 2019-10-26
### Modified: 2020-10-26
###
### Created By : Adam Burford
### Modified By: Adam Burford
###
###
### Notes: Create RC4-HMAC, AES128. AES256 KeyTab file. Does not use AD.
### Password, ServicePRincipal/UPN must be set on AD account.
### Future add may include option AD lookup for Kvno, SPN and UPN.
###
### 2019-11-11 - Added custom SALT option
### 2019-11-11 - Added current Epoch Time Stamp.
### 2019-11-12 - Added -Append option
### 2019-11-12 - Added -Quiet and -NoPrompt switches for use in batch mode
### 2019-11-14 - Added support for UPN format primary/principal (e.g. host/www.domain.com). The principal is split into an array.
### The slash is removed from the SALT calculation.
###
### 2019-11-18 - Changed output text. RC4,AES128,AES256
### 2019-11-18 - Created static nFold output.
### 2019-11-26 - Added a Get-Password function to mask password prompt input
### 2020-01-30 - Add Info for posting to https://www.powershellgallery.com
### 2020-09-15 - Added suggested use of [decimal]::Parse from "https://github.com/matherm-aboehm" to fix timestamp error on localized versions of Windows. Line 535.
### 2020-10-26 - Add KRB5_NT_SRV_HST to possible PType values
###
##########################################################
### Attribution:
### https://tools.ietf.org/html/rfc3961
### https://docs.microsoft.com/en-us/openspecs/windows_protocols/ms-kile/936a4878-9462-4753-aac8-087cd3ca4625?redirectedfrom=MSDN
### https://github.com/dfinke/powershell-algorithms/blob/master/src/algorithms/math/euclidean-algorithm/euclideanAlgorithm.ps1
### https://afana.me/archive/2016/12/29/how-mit-keytab-files-store-passwords.aspx/
### http://www.ioplex.com/utilities/keytab.txt
<#
.SYNOPSIS
This script will generate and append version 502 KeyTab files
.DESCRIPTION
Required Parameters
-Realm : The Realm for the KeyTab
-Principal : The Principal for the KeyTab. Case sensative for AES SALT. Default REALM+Principal
-Password :
Optional Parameters
-SALT : Use a custom SALT
-File : KeyTab File Path. Default = CurrentDirectory\login.keytab
-KVNO : Default = 1. Exceeding 255 will wrap the KVNO. THe 32bit KVNO field is not implimented.
-PType : Default = KRB5_NT_PRINCIPAL
-RC4 : Generate RC4 Key
-AES128 : Generate AES128 Key
-AES256 : Generate AES256 Key - This is default if no Etype switch is set.
-Append : Append Key Data to an existing KeyTab file.
-Quiet : Suppress Text Output
-NoPrompt : Suppress Write KeyTab File Prompt
.EXAMPLE
.\Create-KeyTab.ps1
.EXAMPLE
.\Create-KeyTab.ps1 -AES256 -AES128 -RC4
.EXAMPLE
.\Create-KeyTab.ps1 -AES256 -AES128 -Append
.EXAMPLE
.\Create-KeyTab.ps1 -AES256 -AES128 -SALT "MY.REALM.COMprincipalname"
.EXAMPLE
.\Create-KeyTab.ps1 -Realm "MY.REALM.COM" -Principal "principalname" -Password "Secret" -File "c:\temp\login.keytab"
.NOTES
Use -QUIET and -NOPROMPT for batch mode processing.
.LINK
https://www.linkedin.com/in/adamburford
#>
param (
[Parameter(Mandatory=$true,HelpMessage="REALM name will be forced to Upper Case")]$Realm,
[Parameter(Mandatory=$true,HelpMessage="Principal is case sensative. It must match the principal portion of the UPN",ValueFromPipelineByPropertyName=$true)]$Principal,
[Parameter(Mandatory=$false)]$Password,
[Parameter(Mandatory=$false)]$SALT,
[Parameter(Mandatory=$false)]$File,
[Parameter(Mandatory=$false,ValueFromPipelineByPropertyName=$true)]$KVNO=1,
[Parameter(Mandatory=$false)][ValidateSet("KRB5_NT_PRINCIPAL", "KRB5_NT_SRV_INST", "KRB5_NT_SRV_HST", "KRB5_NT_UID")][String[]]$PType="KRB5_NT_PRINCIPAL",
[Parameter(Mandatory=$false)][Switch]$RC4,
[Parameter(Mandatory=$false)][Switch]$AES128,
[Parameter(Mandatory=$false)][Switch]$AES256,
[Parameter(Mandatory=$false)][Switch]$Append,
[Parameter(Mandatory=$false)][Switch]$Quiet,
[Parameter(Mandatory=$false)][Switch]$NoPrompt
)
function Get-MD4{
PARAM(
[String]$String,
[Byte[]]$bArray,
[Switch]$UpperCase
)
# Author: [email protected]
# https://github.com/LarrysGIT/MD4-powershell
# Reference: https://tools.ietf.org/html/rfc1320
# MD4('abc'): a448017aaf21d8525fc10ae87aa6729d
$Array = [byte[]]@()
if($String)
{
$Array = [byte[]]@($String.ToCharArray() | %{[int]$_})
}
if($bArray)
{
$Array = $bArray
}
# padding 100000*** to length 448, last (64 bits / 8) 8 bytes fill with original length
# at least one (512 bits / 8) 64 bytes array
$M = New-Object Byte[] (([math]::Floor($Array.Count/64) + 1) * 64)
# copy original byte array, start from index 0
$Array.CopyTo($M, 0)
# padding bits 1000 0000
$M[$Array.Count] = 0x80
# padding bits 0000 0000 to fill length (448 bits /8) 56 bytes
# Default value is 0 when creating a new byte array, so, no action
# padding message length to the last 64 bits
@([BitConverter]::GetBytes($Array.Count * 8)).CopyTo($M, $M.Count - 8)
# message digest buffer (A,B,C,D)
$A = [Convert]::ToUInt32('0x67452301', 16)
$B = [Convert]::ToUInt32('0xefcdab89', 16)
$C = [Convert]::ToUInt32('0x98badcfe', 16)
$D = [Convert]::ToUInt32('0x10325476', 16)
# There is no unsigned number shift in C#, have to define one.
Add-Type -TypeDefinition @'
public class Shift
{
public static uint Left(uint a, int b)
{
return ((a << b) | (((a >> 1) & 0x7fffffff) >> (32 - b - 1)));
}
}
'@
# define 3 auxiliary functions
function FF([uint32]$X, [uint32]$Y, [uint32]$Z)
{
(($X -band $Y) -bor ((-bnot $X) -band $Z))
}
function GG([uint32]$X, [uint32]$Y, [uint32]$Z)
{
(($X -band $Y) -bor ($X -band $Z) -bor ($Y -band $Z))
}
function HH([uint32]$X, [uint32]$Y, [uint32]$Z){
($X -bxor $Y -bxor $Z)
}
# processing message in one-word blocks
for($i = 0; $i -lt $M.Count; $i += 64)
{
# Save a copy of A/B/C/D
$AA = $A
$BB = $B
$CC = $C
$DD = $D
# Round 1 start
$A = [Shift]::Left(($A + (FF -X $B -Y $C -Z $D) + [BitConverter]::ToUInt32($M[($i + 0)..($i + 3)], 0)) -band [uint32]::MaxValue, 3)
$D = [Shift]::Left(($D + (FF -X $A -Y $B -Z $C) + [BitConverter]::ToUInt32($M[($i + 4)..($i + 7)], 0)) -band [uint32]::MaxValue, 7)
$C = [Shift]::Left(($C + (FF -X $D -Y $A -Z $B) + [BitConverter]::ToUInt32($M[($i + 8)..($i + 11)], 0)) -band [uint32]::MaxValue, 11)
$B = [Shift]::Left(($B + (FF -X $C -Y $D -Z $A) + [BitConverter]::ToUInt32($M[($i + 12)..($i + 15)], 0)) -band [uint32]::MaxValue, 19)
$A = [Shift]::Left(($A + (FF -X $B -Y $C -Z $D) + [BitConverter]::ToUInt32($M[($i + 16)..($i + 19)], 0)) -band [uint32]::MaxValue, 3)
$D = [Shift]::Left(($D + (FF -X $A -Y $B -Z $C) + [BitConverter]::ToUInt32($M[($i + 20)..($i + 23)], 0)) -band [uint32]::MaxValue, 7)
$C = [Shift]::Left(($C + (FF -X $D -Y $A -Z $B) + [BitConverter]::ToUInt32($M[($i + 24)..($i + 27)], 0)) -band [uint32]::MaxValue, 11)
$B = [Shift]::Left(($B + (FF -X $C -Y $D -Z $A) + [BitConverter]::ToUInt32($M[($i + 28)..($i + 31)], 0)) -band [uint32]::MaxValue, 19)
$A = [Shift]::Left(($A + (FF -X $B -Y $C -Z $D) + [BitConverter]::ToUInt32($M[($i + 32)..($i + 35)], 0)) -band [uint32]::MaxValue, 3)
$D = [Shift]::Left(($D + (FF -X $A -Y $B -Z $C) + [BitConverter]::ToUInt32($M[($i + 36)..($i + 39)], 0)) -band [uint32]::MaxValue, 7)
$C = [Shift]::Left(($C + (FF -X $D -Y $A -Z $B) + [BitConverter]::ToUInt32($M[($i + 40)..($i + 43)], 0)) -band [uint32]::MaxValue, 11)
$B = [Shift]::Left(($B + (FF -X $C -Y $D -Z $A) + [BitConverter]::ToUInt32($M[($i + 44)..($i + 47)], 0)) -band [uint32]::MaxValue, 19)
$A = [Shift]::Left(($A + (FF -X $B -Y $C -Z $D) + [BitConverter]::ToUInt32($M[($i + 48)..($i + 51)], 0)) -band [uint32]::MaxValue, 3)
$D = [Shift]::Left(($D + (FF -X $A -Y $B -Z $C) + [BitConverter]::ToUInt32($M[($i + 52)..($i + 55)], 0)) -band [uint32]::MaxValue, 7)
$C = [Shift]::Left(($C + (FF -X $D -Y $A -Z $B) + [BitConverter]::ToUInt32($M[($i + 56)..($i + 59)], 0)) -band [uint32]::MaxValue, 11)
$B = [Shift]::Left(($B + (FF -X $C -Y $D -Z $A) + [BitConverter]::ToUInt32($M[($i + 60)..($i + 63)], 0)) -band [uint32]::MaxValue, 19)
# Round 1 end
# Round 2 start
$A = [Shift]::Left(($A + (GG -X $B -Y $C -Z $D) + [BitConverter]::ToUInt32($M[($i + 0)..($i + 3)], 0) + 0x5A827999) -band [uint32]::MaxValue, 3)
$D = [Shift]::Left(($D + (GG -X $A -Y $B -Z $C) + [BitConverter]::ToUInt32($M[($i + 16)..($i + 19)], 0) + 0x5A827999) -band [uint32]::MaxValue, 5)
$C = [Shift]::Left(($C + (GG -X $D -Y $A -Z $B) + [BitConverter]::ToUInt32($M[($i + 32)..($i + 35)], 0) + 0x5A827999) -band [uint32]::MaxValue, 9)
$B = [Shift]::Left(($B + (GG -X $C -Y $D -Z $A) + [BitConverter]::ToUInt32($M[($i + 48)..($i + 51)], 0) + 0x5A827999) -band [uint32]::MaxValue, 13)
$A = [Shift]::Left(($A + (GG -X $B -Y $C -Z $D) + [BitConverter]::ToUInt32($M[($i + 4)..($i + 7)], 0) + 0x5A827999) -band [uint32]::MaxValue, 3)
$D = [Shift]::Left(($D + (GG -X $A -Y $B -Z $C) + [BitConverter]::ToUInt32($M[($i + 20)..($i + 23)], 0) + 0x5A827999) -band [uint32]::MaxValue, 5)
$C = [Shift]::Left(($C + (GG -X $D -Y $A -Z $B) + [BitConverter]::ToUInt32($M[($i + 36)..($i + 39)], 0) + 0x5A827999) -band [uint32]::MaxValue, 9)
$B = [Shift]::Left(($B + (GG -X $C -Y $D -Z $A) + [BitConverter]::ToUInt32($M[($i + 52)..($i + 55)], 0) + 0x5A827999) -band [uint32]::MaxValue, 13)
$A = [Shift]::Left(($A + (GG -X $B -Y $C -Z $D) + [BitConverter]::ToUInt32($M[($i + 8)..($i + 11)], 0) + 0x5A827999) -band [uint32]::MaxValue, 3)
$D = [Shift]::Left(($D + (GG -X $A -Y $B -Z $C) + [BitConverter]::ToUInt32($M[($i + 24)..($i + 27)], 0) + 0x5A827999) -band [uint32]::MaxValue, 5)
$C = [Shift]::Left(($C + (GG -X $D -Y $A -Z $B) + [BitConverter]::ToUInt32($M[($i + 40)..($i + 43)], 0) + 0x5A827999) -band [uint32]::MaxValue, 9)
$B = [Shift]::Left(($B + (GG -X $C -Y $D -Z $A) + [BitConverter]::ToUInt32($M[($i + 56)..($i + 59)], 0) + 0x5A827999) -band [uint32]::MaxValue, 13)
$A = [Shift]::Left(($A + (GG -X $B -Y $C -Z $D) + [BitConverter]::ToUInt32($M[($i + 12)..($i + 15)], 0) + 0x5A827999) -band [uint32]::MaxValue, 3)
$D = [Shift]::Left(($D + (GG -X $A -Y $B -Z $C) + [BitConverter]::ToUInt32($M[($i + 28)..($i + 31)], 0) + 0x5A827999) -band [uint32]::MaxValue, 5)
$C = [Shift]::Left(($C + (GG -X $D -Y $A -Z $B) + [BitConverter]::ToUInt32($M[($i + 44)..($i + 47)], 0) + 0x5A827999) -band [uint32]::MaxValue, 9)
$B = [Shift]::Left(($B + (GG -X $C -Y $D -Z $A) + [BitConverter]::ToUInt32($M[($i + 60)..($i + 63)], 0) + 0x5A827999) -band [uint32]::MaxValue, 13)
# Round 2 end
# Round 3 start
$A = [Shift]::Left(($A + (HH -X $B -Y $C -Z $D) + [BitConverter]::ToUInt32($M[($i + 0)..($i + 3)], 0) + 0x6ED9EBA1) -band [uint32]::MaxValue, 3)
$D = [Shift]::Left(($D + (HH -X $A -Y $B -Z $C) + [BitConverter]::ToUInt32($M[($i + 32)..($i + 35)], 0) + 0x6ED9EBA1) -band [uint32]::MaxValue, 9)
$C = [Shift]::Left(($C + (HH -X $D -Y $A -Z $B) + [BitConverter]::ToUInt32($M[($i + 16)..($i + 19)], 0) + 0x6ED9EBA1) -band [uint32]::MaxValue, 11)
$B = [Shift]::Left(($B + (HH -X $C -Y $D -Z $A) + [BitConverter]::ToUInt32($M[($i + 48)..($i + 51)], 0) + 0x6ED9EBA1) -band [uint32]::MaxValue, 15)
$A = [Shift]::Left(($A + (HH -X $B -Y $C -Z $D) + [BitConverter]::ToUInt32($M[($i + 8)..($i + 11)], 0) + 0x6ED9EBA1) -band [uint32]::MaxValue, 3)
$D = [Shift]::Left(($D + (HH -X $A -Y $B -Z $C) + [BitConverter]::ToUInt32($M[($i + 40)..($i + 43)], 0) + 0x6ED9EBA1) -band [uint32]::MaxValue, 9)
$C = [Shift]::Left(($C + (HH -X $D -Y $A -Z $B) + [BitConverter]::ToUInt32($M[($i + 24)..($i + 27)], 0) + 0x6ED9EBA1) -band [uint32]::MaxValue, 11)
$B = [Shift]::Left(($B + (HH -X $C -Y $D -Z $A) + [BitConverter]::ToUInt32($M[($i + 56)..($i + 59)], 0) + 0x6ED9EBA1) -band [uint32]::MaxValue, 15)
$A = [Shift]::Left(($A + (HH -X $B -Y $C -Z $D) + [BitConverter]::ToUInt32($M[($i + 4)..($i + 7)], 0) + 0x6ED9EBA1) -band [uint32]::MaxValue, 3)
$D = [Shift]::Left(($D + (HH -X $A -Y $B -Z $C) + [BitConverter]::ToUInt32($M[($i + 36)..($i + 39)], 0) + 0x6ED9EBA1) -band [uint32]::MaxValue, 9)
$C = [Shift]::Left(($C + (HH -X $D -Y $A -Z $B) + [BitConverter]::ToUInt32($M[($i + 20)..($i + 23)], 0) + 0x6ED9EBA1) -band [uint32]::MaxValue, 11)
$B = [Shift]::Left(($B + (HH -X $C -Y $D -Z $A) + [BitConverter]::ToUInt32($M[($i + 52)..($i + 55)], 0) + 0x6ED9EBA1) -band [uint32]::MaxValue, 15)
$A = [Shift]::Left(($A + (HH -X $B -Y $C -Z $D) + [BitConverter]::ToUInt32($M[($i + 12)..($i + 15)], 0) + 0x6ED9EBA1) -band [uint32]::MaxValue, 3)
$D = [Shift]::Left(($D + (HH -X $A -Y $B -Z $C) + [BitConverter]::ToUInt32($M[($i + 44)..($i + 47)], 0) + 0x6ED9EBA1) -band [uint32]::MaxValue, 9)
$C = [Shift]::Left(($C + (HH -X $D -Y $A -Z $B) + [BitConverter]::ToUInt32($M[($i + 28)..($i + 31)], 0) + 0x6ED9EBA1) -band [uint32]::MaxValue, 11)
$B = [Shift]::Left(($B + (HH -X $C -Y $D -Z $A) + [BitConverter]::ToUInt32($M[($i + 60)..($i + 63)], 0) + 0x6ED9EBA1) -band [uint32]::MaxValue, 15)
# Round 3 end
# Increment start
$A = ($A + $AA) -band [uint32]::MaxValue
$B = ($B + $BB) -band [uint32]::MaxValue
$C = ($C + $CC) -band [uint32]::MaxValue
$D = ($D + $DD) -band [uint32]::MaxValue
# Increment end
}
# Output start
$A = ('{0:x8}' -f $A) -ireplace '^(\w{2})(\w{2})(\w{2})(\w{2})$', '$4$3$2$1'
$B = ('{0:x8}' -f $B) -ireplace '^(\w{2})(\w{2})(\w{2})(\w{2})$', '$4$3$2$1'
$C = ('{0:x8}' -f $C) -ireplace '^(\w{2})(\w{2})(\w{2})(\w{2})$', '$4$3$2$1'
$D = ('{0:x8}' -f $D) -ireplace '^(\w{2})(\w{2})(\w{2})(\w{2})$', '$4$3$2$1'
# Output end
if($UpperCase)
{
return "$A$B$C$D".ToUpper()
}
else
{
return "$A$B$C$D"
}
}
function Get-PBKDF2 {
param (
[Parameter(Mandatory=$true)]$PasswordString,
[Parameter(Mandatory=$true)]$SALT,
[Parameter(Mandatory=$true)][ValidateSet("16", "32")][String[]]$KeySize
)
### Set Key Size
switch($KeySize){
"16"{
[int] $size = 16
break;
}
"32"{
[int] $size = 32
break;
}
default{}
}
[byte[]] $password = [Text.Encoding]::UTF8.GetBytes($PasswordString)
[byte[]] $saltBytes = [Text.Encoding]::UTF8.GetBytes($SALT)
#PBKDF2 IterationCount=4096
$deriveBytes = new-Object Security.Cryptography.Rfc2898DeriveBytes($password, $saltBytes, 4096)
<#
$hexStringSALT = Get-HexStringFromByteArray -Data $deriveBytes.Salt
Write-Host "SALT (HEX):"$hexStringSALT -ForegroundColor Yellow
#>
return $deriveBytes.GetBytes($size)
}
function Encrypt-AES {
param (
[Parameter(Mandatory=$true)]$KeyData,
[Parameter(Mandatory=$true)]$IVData,
[Parameter(Mandatory=$true)]$Data
)
### AES 128-CTS
# KeySize = 16
# AESKey = Encrypt-AES -KeyData PBKdf2 -IVData IV -Data NFoldText
### AES 256-CTS
# KeySize = 32
# K1 = Encrypt-AES -KeyData PBKdf2 -IVData IV -Data NFoldText
# K2 = Encrypt-AES -KeyData PBKdf2 -IVData IV -Data K1
# AESKey = K1 + K2
# Create AES Object
$Aes = $null
$encryptor = $null
$memStream = $null
$cryptoStream = $null
$AESKey = $null
$Aes = New-Object System.Security.Cryptography.AesManaged
$Aes.Mode = [System.Security.Cryptography.CipherMode]::CBC
$Aes.Padding = [System.Security.Cryptography.PaddingMode]::None
$Aes.BlockSize = 128
$encryptor = $Aes.CreateEncryptor($key,$IV)
$memStream = new-Object IO.MemoryStream
[byte[]] $AESKey = @()
$cryptoStream = New-Object System.Security.Cryptography.CryptoStream($memStream, $encryptor, [System.Security.Cryptography.CryptoStreamMode]::Write)
$cryptoStream.Write($Data, 0, $Data.Length)
$CryptoStream.FlushFinalBlock()
$cryptoStream.Close()
$AESKey = $memStream.ToArray()
$memStream.Close()
$Aes.Dispose()
return $AESKey
}
function Get-AES128Key {
param (
[Parameter(Mandatory=$true)]$PasswordString,
[Parameter(Mandatory=$true)]$SALT=""
)
[byte[]] $PBKDF2 = Get-PBKDF2 -PasswordString $passwordString -SALT $SALT -KeySize 16
#[byte[]] $nFolded = (Get-NFold-Bytes -Data ([Text.Encoding]::ASCII.GetBytes("kerberos")) -KeySize 16)
[byte[]] $nFolded = @(107,101,114,98,101,114,111,115,123,155,91,43,147,19,43,147)
[byte[]] $Key = $PBKDF2
[byte[]] $IV = @(0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0)
$AES128Key = Encrypt-AES -KeyData $key -IVData $IV -Data $nFolded
return $(Get-HexStringFromByteArray -Data $AES128Key)
}
function Get-AES256Key {
param (
[Parameter(Mandatory=$true)]$PasswordString,
[Parameter(Mandatory=$true)]$SALT=""
)
[byte[]] $PBKDF2 = Get-PBKDF2 -PasswordString $passwordString -SALT $SALT -KeySize 32
#[byte[]] $nFolded = (Get-NFold-Bytes -Data ([Text.Encoding]::ASCII.GetBytes("kerberos")) -KeySize 16)
[byte[]] $nFolded = @(107,101,114,98,101,114,111,115,123,155,91,43,147,19,43,147)
[byte[]] $Key = $PBKDF2
[byte[]] $IV = @(0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0)
$k1 = Encrypt-AES -KeyData $key -IVData $IV -Data $nFolded
$k2 = Encrypt-AES -KeyData $key -IVData $IV -Data $k1
$AES256Key = $k1 + $k2
return $(Get-HexStringFromByteArray -Data $AES256Key)
}
function Get-HexStringFromByteArray{
param (
[Parameter(Mandatory=$true,Position=0)][byte[]]$Data
)
$hexString = $null
$sb = New-Object System.Text.StringBuilder ($Data.Length * 2)
foreach($b in $Data)
{
$sb.AppendFormat("{0:x2}", $b) |Out-Null
}
$hexString = $sb.ToString().ToUpper([CultureInfo]::InvariantCulture)
return $hexString
}
function Get-ByteArrayFromHexString{
param
(
[Parameter(Mandatory=$true)][String]$HexString
)
$i = 0;
$bytes = @()
while($i -lt $HexString.Length)
{
$chars = $HexString.SubString($i, 2)
$b = [Convert]::ToByte($chars, 16)
$bytes += $b
$i = $i+2
}
return $bytes
}
function Get-BytesBigEndian {
param (
[Parameter(Mandatory=$true)]$Value,
[Parameter(Mandatory=$true)][ValidateSet("16", "32")][String[]]$BitSize
)
### Set Key Type
[byte[]] $bytes = @()
switch($BitSize){
"16"{
$bytes = [BitCOnverter]::GetBytes([int16]$Value)
if([BitCOnverter]::IsLittleEndian){
[Array]::Reverse($bytes)
}
break;
}
"32"{
$bytes = [BitCOnverter]::GetBytes([int32]$Value)
if([BitCOnverter]::IsLittleEndian){
[Array]::Reverse($bytes)
}
break;
}
default{}
}
return $bytes
}
function Get-PrincipalType {
param (
[Parameter(Mandatory=$true)][ValidateSet("KRB5_NT_PRINCIPAL", "KRB5_NT_SRV_INST", "KRB5_NT_SRV_HST", "KRB5_NT_UID")][String[]]$PrincipalType
)
[byte[]] $nameType = @()
switch($PrincipalType){
"KRB5_NT_PRINCIPAL"{$nameType = @(00,00,00,01);break}
"KRB5_NT_SRV_INST"{$nameType = @(00,00,00,02);break}
"KRB5_NT_SRV_HST"{$nameType = @(00,00,00,03);break}
"KRB5_NT_UID"{$nameType = @(00,00,00,05);break}
default{$nameType = @(00,00,00,01);break}
}
return $nameType
}
function Create-KeyTabEntry {
param (
[Parameter(Mandatory=$true)]$PasswordString,
[Parameter(Mandatory=$true)]$RealmString,
[Parameter(Mandatory=$true)]$Components,
[Parameter(Mandatory=$false)]$SALT="",
[Parameter(Mandatory=$false)]$KVNO=1,
[Parameter(Mandatory=$true)][ValidateSet("KRB5_NT_PRINCIPAL", "KRB5_NT_SRV_INST", "KRB5_NT_SRV_HST", "KRB5_NT_UID")][String[]]$PrincipalType,
[Parameter(Mandatory=$true)][ValidateSet("RC4", "AES128", "AES256")][String[]]$EncryptionKeyType
)
### Key Types: RC4 0x17 (23), AES128 0x11 (17), AES256 0x12 (18)
### Set Key Type
[byte[]] $keyType = @()
[byte[]] $sizeKeyBlock = @()
switch($EncryptionKeyType){
"RC4"{
$keyType = @(00,23)
$sizeKey = 16
$sizeKeyBlock = @(00,16)
### Create RC4-HMAC Key. Unicode is required for MD4 hash input.
[byte[]]$password = [Text.Encoding]::Unicode.GetBytes($passwordString)
$keyBlock = Get-MD4 -bArray $password -UpperCase
break
}
"AES128"{
$keyType = @(00,17)
$sizeKey = 16
$sizeKeyBlock = @(00,16)
#$keyBlock = Get-AES128Key -PasswordString $passwordString -Realm $RealmString -Principal $PrincipalString -SALT $SALT
$keyBlock = Get-AES128Key -PasswordString $passwordString -SALT $SALT
break
}
"AES256"{
$keyType = @(00,18)
$sizeKey = 32
$sizeKeyBlock = @(00,32)
#$keyBlock = Get-AES256Key -PasswordString $passwordString -Realm $RealmString -Principal $PrincipalString -SALT $SALT
$keyBlock = Get-AES256Key -PasswordString $passwordString -SALT $SALT
break
}
default{}
}
### Set Principal Type
[byte[]] $nameType = @()
switch($PrincipalType){
"KRB5_NT_PRINCIPAL"{$nameType = @(00,00,00,01);break}
"KRB5_NT_SRV_INST"{$nameType = @(00,00,00,02);break}
"KRB5_NT_SRV_HST"{$nameType = @(00,00,00,03);break}
"KRB5_NT_UID"{$nameType = @(00,00,00,05);break}
default{$nameType = @(00,00,00,01);break}
}
### KVNO larger than 255 requires 32bit KVNO field at the end of the record
$vno = @()
if($kvno -le 255){
$vno = @([byte]$kvno)
} else {
$vno = @(00)
}
[byte[]]$numComponents = Get-BytesBigEndian -BitSize 16 -Value $components.Count
### To Set TimeStamp To Jan 1, 1970 - [byte[]]$timeStamp = @(0,0,0,0)
### [byte[]]$timeStamp = Get-BytesBigEndian -BitSize 32 -Value ([int]([Math]::Truncate((Get-Date(Get-Date).ToUniversalTime() -UFormat %s))))
### 15 September 2020 Updated
### https://github.com/matherm-aboehm suggested use of [decimal]::Parse to fix timestamp error on localized versions of Windows.
[byte[]]$timeStamp = Get-BytesBigEndian -BitSize 32 -Value ([int]([Math]::Truncate([decimal]::Parse((Get-Date(Get-Date).ToUniversalTime() -UFormat %s)))))
### Data size information for KeyEntry
# num_components bytes = 2
# realm bytes = variable (2 bytes) + length
# components array bytes = varable (2 bytes) + length for each component. Component count should be typically 1 or 2.
# name type bytes = 4
# timestamp bytes = 4
# kvno bytes = 1 or 4
# Key Type bytes = 2
# Key bytes = 2 + 16 or 32 "RC4 and AES128 are 16 Byte Keys. AES 256 is 32"
$sizeRealm = Get-BytesBigEndian -Value ([Text.Encoding]::UTF8.GetByteCount($realmString)) -BitSize 16
[Int32]$sizeKeyTabEntry = 2 #NumComponentsSize
$sizeKeyTabEntry += 2 #RealmLength Byte Count
$sizeKeyTabEntry += ([Text.Encoding]::UTF8.GetByteCount($realmString))
foreach($principal in $Components){
$sizePrincipal = ([Text.Encoding]::UTF8.GetByteCount($principal))
$sizeKeyTabEntry += $sizePrincipal + 2
}
$sizeKeyTabEntry += 4 #NameType
$sizeKeyTabEntry += 4 #TimeStamp
$sizeKeyTabEntry += 1 #KVNO 8bit
$sizeKeyTabEntry += 2 #KeyType
$sizeKeyTabEntry += 2 #Key Length Count
$sizeKeyTabEntry += $sizeKey
$sizeTotal = Get-BytesBigEndian -Value $sizeKeyTabEntry -BitSize 32
[byte[]] $keytabEntry = @()
$keytabEntry += $sizeTotal
$keytabEntry += $numComponents
$keytabEntry += $sizeRealm
$keytabEntry += [byte[]][Text.Encoding]::UTF8.GetBytes($realmString)
foreach($principal in $Components){
$sizePrincipal = Get-BytesBigEndian -Value ([Text.Encoding]::UTF8.GetByteCount($principal)) -BitSize 16
$keytabEntry += $sizePrincipal
$keytabEntry += [byte[]][Text.Encoding]::UTF8.GetBytes($principal)
}
$keytabEntry += $nameType
$keytabEntry += $timeStamp
$keytabEntry += $vno
$keytabEntry += $keyType
$keytabEntry += $sizeKeyBlock
$keytabEntry += Get-ByteArrayFromHexString -HexString $keyBlock
$keytabEntryObject = [PsCustomObject]@{
Size = $sizeKeyTabEntry
NumComponents = $numComponents
Realm = [byte[]][Text.Encoding]::UTF8.GetBytes($realmString)
Components = $components
NameType = $nameType
TimeStamp = $timeStamp
KeyType = $keyType
KeyBlock = $keyBlock
KeytabEntry = $keytabEntry
}
return $keytabEntryObject
}
Function Get-Password {
$passwordSecure = Read-Host -Prompt "Enter Password" -AsSecureString
$passwordBSTR = [System.Runtime.InteropServices.Marshal]::SecureStringToBSTR($passwordSecure)
$password = [System.Runtime.InteropServices.Marshal]::PtrToStringAuto($passwordBSTR)
return $password
}
if ([string]::IsNullOrEmpty($Password)){$Password = $(Get-Password)}
if ([string]::IsNullOrEmpty($File)){$File=$(Get-Location).Path+'\login.keytab'}
if($Quiet) {
$Script:Silent = $true
} else {
$Script:Silent = $false
}
### Force Realm to UPPERCASE
$Realm = $Realm.ToUpper()
### The Components array splits the primary/principal.
$PrincipalArray = @()
$PrincipalArray = $Principal.Split(',')
### Check For Custom SALT
if([string]::IsNullOrEmpty($SALT) -eq $true) {
$SALT = $Realm
for($i=0;$i -lt $PrincipalArray.Count;$i++){
$SALT += $($PrincipalArray[$i].Replace('/',""))
}
}
### Finish spliting principal into component parts. PrincipalArray should have at most 2 elements. Testing with Java based tools,
### the keytab entry can only support one UPN. The components portion of the keytab entry appears to only be for spliting
### a UPN in an SPN format. e.g. HOST/[email protected]
$PrincipalText = $Principal
$Principal = $Principal.Replace('/',",")
$PrincipalArray = @()
$PrincipalArray = $Principal.Split(',')
[byte[]] $keyTabVersion = @(05,02)
[byte[]] $keyTabEntries = @()
### Set Default Encryption to AES256 if none of the E-Type switches are set
if(!$RC4 -and !$AES128 -and !$AES256){
$AES256 = $true
}
### Truncate KVNO
[Byte[]] $KVNO = [Byte[]](Get-BytesBigEndian -BitSize 32 -Value $KVNO)
[int16] $KVNO = [int]$KVNO[3]
### Create KeyTab Entries for selected E-Types RC4/AES128/AES256 supported
$keytabEntry = $null
if($RC4 -eq $true){
$keytabEntry = Create-KeyTabEntry `
-realmString $Realm -Components $PrincipalArray -passwordString $Password `
-PrincipalType $PType -EncryptionKeyType RC4 -KVNO $KVNO
$keyTabEntries += $keytabEntry.KeytabEntry
if($Script:Silent -eq $false){ Write-Host "RC4:"$keytabEntry.KeyBlock -ForegroundColor Cyan}
}
$keytabEntry = $null
if($AES128 -eq $true){
$keytabEntry = Create-KeyTabEntry `
-realmString $Realm -Components $PrincipalArray -passwordString $Password `
-PrincipalType $PType -EncryptionKeyType AES128 -KVNO $KVNO -SALT $SALT
$keyTabEntries += $keytabEntry.KeytabEntry
if($Script:Silent -eq $false){ Write-Host "AES128:"$keytabEntry.KeyBlock -ForegroundColor Cyan}
}
$keytabEntry = $null
if($AES256 -eq $true){
$keytabEntry = Create-KeyTabEntry `
-realmString $Realm -Components $PrincipalArray -passwordString $Password `
-PrincipalType $PType -EncryptionKeyType AES256 -KVNO $KVNO -SALT $SALT
$keyTabEntries += $keytabEntry.KeytabEntry
if($Script:Silent -eq $false){ Write-Host "AES256:"$keytabEntry.KeyBlock -ForegroundColor Cyan}
}
if($Script:Silent -eq $false){
Write-Host $("Principal Type:").PadLeft(15)$PType -ForegroundColor Green
Write-Host $("Realm:").PadLeft(15)$Realm -ForegroundColor Green
Write-Host $("User Name:").PadLeft(15)$PrincipalText -ForegroundColor Green
Write-Host $("SALT:").PadLeft(15)$SALT -ForegroundColor Green
Write-Host $("Keytab File:").PadLeft(15)$File -ForegroundColor Green
Write-Host $("Append File:").PadLeft(15)$Append -ForegroundColor Green
Write-Host ""
}
if(!$NoPrompt){
Write-Host "Press Enter to Write KeyTab File /Ctrl+C to quit..." -ForegroundColor Yellow -NoNewline
[void](Read-Host)
Write-Host ""
}
if($Append -eq $true){
$fileBytes = @()
if([System.IO.File]::Exists($File)){
$fileBytes += [System.IO.File]::ReadAllBytes($File) + $keyTabEntries
[System.IO.File]::WriteAllBytes($File,$fileBytes)
} else {
$fileBytes = @()
$fileBytes += $keyTabVersion
$fileBytes += $keyTabEntries
[System.IO.File]::WriteAllBytes($File,$fileBytes)
}
} else {
$fileBytes = @()
$fileBytes += $keyTabVersion
$fileBytes += $keyTabEntries
[System.IO.File]::WriteAllBytes($File,$fileBytes)
}