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# Copyright: (c) 2022, Jordan Borean (@jborean93) <[email protected]> | |
# MIT License (see LICENSE or https://opensource.org/licenses/MIT) | |
Function Trace-TlsHandshake { | |
<# | |
.SYNOPSIS | |
TLS Handshake Diagnostics. | |
.DESCRIPTION | |
Performs a TLS handshake and returns diagnostic information about that | |
exchange. It can also be used to capture the raw TLS packets used in the | |
exchange through the -CapturePacket switch. | |
.PARAMETER HostName | |
The hostname to connect to. | |
.PARAMETER Port | |
The port to connect to, defaults to 443 which is commonly used for https. | |
.PARAMETER Protocol | |
The TLS protocol to restrict the handshake to. The default will use the | |
OS defaults but this can be used to use a specific protocol. | |
.PARAMETER CipherSuite | |
Override the cipher suite selection policy. The default will use the OS | |
defaults. Currently only Linux and macOS can define an explicit cipher | |
suite policy. The dotnet API does not support this for Windows | |
https://github.com/dotnet/runtime/issues/23818. | |
.PARAMETER CapturePacket | |
Capture the raw TLS packets and store them in the output Packets property. | |
This is experimental but can be used to analyze data not available through | |
PowerShell/.NET. | |
.EXAMPLE | |
Trace-TlsHandshake -HostName google.com | |
.OUTPUTS | |
This cmdlet outputs an object with the following properties: | |
Protocol | |
The TLS protocol that was negotiated. The values correspond to the | |
SslProtocols enum | |
https://docs.microsoft.com/en-us/dotnet/api/system.security.authentication.sslprotocols?view=net-6.0 | |
Cipher | |
The cipher suite which was negotiated. The values correspond to the | |
TlsCipherSuite enum | |
https://docs.microsoft.com/en-us/dotnet/api/system.net.security.tlsciphersuite?view=net-6.0 | |
KeyStrength | |
The strength of the key exchange algorithm that was negotiated. | |
Certificate | |
The certificate of the target host. | |
Chain | |
A chain of certificate authorities associated with the remote | |
certificate. | |
VerificationStatus | |
The cert verifcation result. The values can be set to the following: | |
None - No errors, verification succeeded | |
RemoteCertificateChainErrors - Errors in the chain | |
RemoteCertificateNameMismatch - Certificate name mismatched | |
RemoteCertificateNotAvailable - No certificate was available | |
The enums are based off | |
https://docs.microsoft.com/en-us/dotnet/api/system.net.security.sslpolicyerrors?view=net-6.0 | |
Packets: | |
The raw TLS packets that were exchanged from the client and host. This | |
will be empty if -CapturePacket was not set. | |
The object in the Packets list contain the following properties: | |
Direction: | |
The direction of the packet; Outgoing for packets sent from the client | |
and Incoming for packets sent from the server. | |
ContentType: | |
The raw content type of the TLS record. | |
Version: | |
The raw version id of the TLS record. | |
Length: | |
The length of the TLS record payload | |
Data: | |
The full TLS record packet, this contains both the TLS record header | |
(first 5 bytes) as well as the remaining payload (size of Length). | |
.NOTES | |
This cmdlet is designed to replicate some of the same functionality that | |
exists in the openssl s_client -connect command. | |
This must run with PowerShell 7+. | |
#> | |
[CmdletBinding()] | |
param ( | |
[Parameter(Mandatory)] | |
[string] | |
$HostName, | |
[Parameter()] | |
[int] | |
$Port = 443, | |
[Parameter()] | |
[System.Security.Authentication.SslProtocols] | |
$Protocol = [System.Security.Authentication.SslProtocols]::None, | |
[Parameter()] | |
[System.Net.Security.CipherSuitesPolicy] | |
$CipherSuite = $null, | |
[Parameter()] | |
[switch] | |
$CapturePacket | |
) | |
$bufferSize = 16KB | |
$pipeName = "tls-test-$([Guid]::NewGuid())" | |
try { | |
Write-Verbose -Message "Connecting to $($HostName):$Port" | |
$socket = [System.Net.Sockets.TcpClient]::new($HostName, $Port) | |
$socketStream = $socket.GetStream() | |
Write-Verbose -Message "Creating named pipe for packet capture called '$pipeName'" | |
$serverPipe = [System.IO.Pipes.NamedPipeServerStream]::new( | |
$pipeName, | |
[System.IO.Pipes.PipeDirection]::InOut, | |
1, | |
[System.IO.Pipes.PipeTransmissionMode]::Byte, | |
[System.IO.Pipes.PipeOptions]"Asynchronous, CurrentUserOnly", | |
$bufferSize, | |
$bufferSize | |
) | |
$clientPipe = [System.IO.Pipes.NamedPipeClientStream]::new( | |
".", | |
$pipeName, | |
[System.IO.Pipes.PipeDirection]::InOut, | |
[System.IO.Pipes.PipeOptions]"Asynchronous, CurrentUserOnly" | |
) | |
Write-Verbose -Message "Connecting client and server named pipes" | |
$waitTask = $serverPipe.WaitForConnectionAsync() | |
$clientPipe.Connect() | |
while (-not $waitTask.AsyncWaitHandle.WaitOne(200)) { } | |
$null = $waitTask.GetAwaiter().GetResult() | |
$tlsPipeRecorder = { | |
[CmdletBinding()] | |
param ( | |
[Parameter(Mandatory)] | |
[string] | |
$Id, | |
[Parameter(Mandatory)] | |
[System.IO.Stream] | |
$Incoming, | |
[Parameter(Mandatory)] | |
[System.IO.Stream] | |
$Outgoing, | |
[Parameter(Mandatory)] | |
[AllowEmptyCollection()] | |
[System.Collections.Generic.List[PSObject]] | |
$MessageList, | |
[Parameter(Mandatory)] | |
[System.Threading.CancellationToken] | |
$CancelToken | |
) | |
try { | |
$buffer = [byte[]]::new(16KB) | |
while ($true) { | |
$task = $Incoming.ReadAsync($buffer, 0, 5, $CancelToken) | |
while (-not $task.AsyncWaitHandle.WaitOne(200)) { } | |
$null = $task.GetAwaiter().GetResult() | |
# The length of the TLS Record is a big endian UInt16 value | |
$msgLength = (([uint16]$buffer[3]) -shl 8) -bor $buffer[4] | |
$null = $Incoming.Read($buffer, 5, $msgLength) | |
$Outgoing.Write($buffer, 0, $msgLength + 5) | |
$Outgoing.Flush() | |
$msgObj = [PSCustomObject]@{ | |
PSTypeName = 'Tls.Record' | |
Direction = $Id | |
ContentType = $buffer[0] | |
Version = (([uint16]$buffer[1]) -shl 8) -bor $buffer[2] | |
Length = $msgLength | |
Data = [byte[]]($buffer[0..($msgLength + 4)]) | |
} | |
$MessageList.Add($msgObj) | |
} | |
} | |
catch [System.OperationCanceledException] {} | |
catch { | |
[Console]::WriteLine("$Id Failed - $_") | |
throw | |
} | |
} | |
$cancelToken = [System.Threading.CancellationTokenSource]::new() | |
$msgList = [System.Collections.Generic.List[PSObject]]::new() | |
$backgroundTasks = @(if ($CapturePacket) { | |
$psRead = [PowerShell]::Create() | |
$psRead.AddScript($tlsPipeRecorder).AddParameters(@{ | |
Id = "Outgoing" | |
Incoming = $clientPipe | |
Outgoing = $socketStream | |
MessageList = $msgList | |
CancelToken = $cancelToken.Token | |
}).InvokeAsync() | |
$psWrite = [PowerShell]::Create() | |
$psWrite.AddScript($tlsPipeRecorder).AddParameters(@{ | |
Id = "Incoming" | |
Incoming = $socketStream | |
Outgoing = $clientPipe | |
MessageList = $msgList | |
CancelToken = $cancelToken.Token | |
}).InvokeAsync() | |
}) | |
$sslOptions = @{ | |
EnabledSslProtocols = $Protocol | |
TargetHost = $HostName | |
} | |
if ($CipherSuite) { | |
$sslOptions.CipherSuitesPolicy = $CipherSuite | |
} | |
$certCallback = { | |
[CmdletBinding()] | |
param ( | |
[object]$SenderObj, | |
[System.Security.Cryptography.X509Certificates.X509Certificate]$Certificate, | |
[System.Security.Cryptography.X509Certificates.X509Chain]$Chain, | |
[System.Net.Security.SslPolicyErrors]$PolicyErrors | |
) | |
$SenderObj._CertCallbackBag.Certificate = $Certificate | |
$SenderObj._CertCallbackBag.Chain = $Chain | |
$SenderObj._CertCallbackBag.PolicyErrors = $PolicyErrors | |
$true | |
} | |
$targetStream = $CapturePacket ? $serverPipe : $socketStream | |
$tlsStream = [System.Net.Security.SslStream]::new($targetStream, $true, $certCallback) | |
# This is used in the callback to smuggle back the callback params | |
$callbackInfo = @{} | |
$tlsStream.PSObject.Properties.Add( | |
[System.Management.Automation.PSNoteProperty]::new('_CertCallbackBag', $callbackInfo)) | |
Write-Verbose "Starting TLS Handshake" | |
try { | |
$tlsStream.AuthenticateAsClient($sslOptions) | |
Write-Verbose "TLS Handshake complete" | |
} | |
catch { | |
# The exception here may contain an unhelpful see inner exception, | |
# raise the inner exception to display a more helpful error. | |
$exp = $_.Exception.InnerException | |
if ($exp.Message -like "*see inner exception*") { | |
$exp = $exp.InnerException | |
} | |
$err = [System.Management.Automation.ErrorRecord]::new( | |
$exp, | |
"TLSHandsakeFailure", | |
[System.Management.Automation.ErrorCategory]::ProtocolError, | |
$HostName) | |
$err.ErrorDetails = "TLS Handshake Failure: $($exp.Message)" | |
$PSCmdlet.WriteError($err) | |
} | |
finally { | |
$cancelToken.Cancel() | |
foreach ($task in $backgroundTasks) { | |
while (-not $task.AsyncWaitHandle.WaitOne(200)) { } | |
$task.GetAwaiter().GetResult() | |
} | |
} | |
[PSCustomObject]@{ | |
PSTypeName = 'Tls.Handshake' | |
Protocol = $tlsStream.SslProtocol | |
Cipher = $tlsStream.NegotiatedCipherSuite | |
KeyStrength = $tlsStream.KeyExchangeStrength | |
Certificate = $callbackInfo.Certificate | |
Chain = $callbackInfo.Chain | |
VerificationStatus = $callbackInfo.PolicyErrors | |
Packets = $msgList | |
} | |
} | |
finally { | |
${socketStream}?.Dispose() | |
${socket}?.Dispose() | |
${tlsStream}?.Dispose() | |
${clientPipe}?.Dispose() | |
${serverPipe}?.Dispose() | |
} | |
} |
Yes - that is the error but I suspect it is something environmental on my Windows resources.
Does this below look ok to you? Even on machines without error, I negotiate TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256
[System.Collections.Generic.List[System.Net.Security.TlsCipherSuite]] $ciphers = @()
$ciphers.Add([System.Net.Security.TlsCipherSuite]::TLS_ECDH_RSA_WITH_AES_256_CBC_SHA384)
$cipherSuite = [System.Net.Security.CipherSuitesPolicy]::new($ciphers)
Trace-TlsHandshake -HostName google.com -CipherSuite $cipherSuite
It seems sane to me, will have to try it out some more to test it though sorry.
I've had a further look and it seems like this is just not implemented on Windows with dotnet dotnet/runtime#23818.
Note: OpenSsl 1.1.1 or OSX is required. Windows is not supported at the moment.
I haven't seen any action for bringing support for this to Windows and even knowing the SSPI APIs to do so sounds a bit complex.
I'll just have to update the docstring to reflection this information.
What would be involved to make this work with a proxy? (basic auth authenticated ideally)
Guess have to do the CONNECT request etc.
According to the docs it’s been in dotnet since core 3.0
Is the error around missing types or is it an error that actually says this is not available on this platform. If it’s the latter I’ll have to find a way to get that working for Windows then.