There are lot of similar questions already answered and none of the answers help my current scenario.

In the windows service we have TCPL SSL stream and client connecting to the stream.

I have created a .NET Client and am able to access the server successfully with Strict TLS 1.2 using IIS Crypto.

We are trying to access the server using Lantronix xport Pro and the below line throws exception

stream.AuthenticateAsServer(serverCertificate, false, SslProtocols.Ssl3| SslProtocols.Tls | SslProtocols.Tls11 | SslProtocols.Tls12, True);

Exception happens only if strict TLS 1.2 is enabled. If we have SSL3 protocol enabled everything works fine without any issues.

using WireShark i can see client sending TLS 1.2 request with below ciphers

Cipher Suite: TLS_RSA_WITH_AES_128_CBC_SHA (0x002f)
Cipher Suite: TLS_RSA_WITH_3DES_EDE_CBC_SHA (0x000a)

As per MSDN above Ciphers are supporting TLS 1.2

Am not having any issue connecting from the .net Client which we created for testing purposes with strict TLS 1.2

Creating a self signed certificate using open ssl. server is running with windows server 2012 R2.

Am not sure on what options i should try for SSLstream specific to TLS 1.2 ?

Is there any thing specific i need to for other than .net client to communicate ?

Any suggestions on tracing this issue would be great

Update on the Lantrix Pro request

Frame 33845: 112 bytes on wire (896 bits), 112 bytes captured (896 bits) on interface 0
Ethernet II, Src: Pronet_c7:bb:29 (00:20:4a:c7:bb:29), Dst: Vmware_99:95:c7 (00:50:56:99:95:c7)
Internet Protocol Version 4, Src: 10.10.110.71, Dst: 10.10.110.10
Transmission Control Protocol, Src Port: 38182, Dst Port: 28000, Seq: 1, Ack: 1, Len: 58
Secure Sockets Layer
    TLSv1.2 Record Layer: Handshake Protocol: Client Hello
        Content Type: Handshake (22)
        Version: TLS 1.2 (0x0303)
        Length: 53
        Handshake Protocol: Client Hello
            Handshake Type: Client Hello (1)
            Length: 49
            Version: TLS 1.2 (0x0303)
            Random: 8a f5 6f 9e 92 65 43 c7 45 9b 57 ff dd a4 22 45 ...
                GMT Unix Time: Nov 16, 2043 20:38:22.000000000 Central Standard Time
                Random Bytes: 92 65 43 c7 45 9b 57 ff dd a4 22 45 12 16 cb 41 ...
            Session ID Length: 0
            Cipher Suites Length: 10
            Cipher Suites (5 suites)
                Cipher Suite: TLS_RSA_WITH_AES_128_CBC_SHA (0x002f)
                Cipher Suite: TLS_RSA_WITH_3DES_EDE_CBC_SHA (0x000a)
                Cipher Suite: TLS_RSA_EXPORT1024_WITH_RC4_56_MD5 (0x0060)
                Cipher Suite: TLS_RSA_EXPORT1024_WITH_RC4_56_SHA (0x0064)
                Cipher Suite: TLS_RSA_EXPORT_WITH_RC4_40_MD5 (0x0003)
            Compression Methods Length: 1
            Compression Methods (1 method)
                Compression Method: null (0)
  • This is practically the same as this question. As I said there already this indicates that the Lantronix xport Pro does not support TLS 1.2. The documentation of the device claims only support for SSLv3. While you claim that the device supports TLS 1.2 (contrary to the documentation) you still did not provide proof of it in the form of a pcap. – Steffen Ullrich Apr 3 at 21:00
  • @Tharun I don't see any SSL handshake in this capture. NO handshaking means NO client hello means NOT possible to say you are using TLS 1.2 – Eugène Adell Apr 3 at 21:21
  • @EugèneAdell am seeing from the pcap i shared. Client hello generated from 10.10.110.71 – Peru Apr 3 at 21:51
  • why negative votes ? i shared the pcap and i can see the client hello generated with TLS 1.2 – Peru Apr 3 at 23:22
  • @SteffenUllrich i have updated the question with PCAP request of client hello – Peru Apr 3 at 23:36
up vote 4 down vote accepted

TL;DR: the client is broken. It looks like the vendor barely added minimal TLS 1.2 support to an old product while keeping insecure ciphers and failing to add support for the currently used SHA-256 signed certificates.


The client does only send a very minimal TLS 1.2 handshake. It only contains 5 ciphers (where the 3 EXPORT ciphers are critically insecure, the 3DES cipher is slightly insecure but the AES128-SHA is acceptable). And, compared to other TLS successful 1.2 handshakes it does not contain the signature_algorithm TLS extension.

This extension is new to TLS 1.2. It is used to tell the server which signature algorithms are supported. If the extension is not provided it will default to SHA1 with RSA for the ciphers offered. To cite from the RFC:

If the client does not send the signature_algorithms extension, the server MUST do the following:

  • If the negotiated key exchange algorithm is one of (RSA, DHE_RSA, DH_RSA, RSA_PSK, ECDH_RSA, ECDHE_RSA), behave as if client had sent the value {sha1,rsa}.

But, the server provides a certificate with an RSA key but with SHA-256 as hash. Thus, this certificate will not match the accepted signature algorithms and the handshake fails. If the server instead allows TLS 1.1 or lower then the handshake will succeed since the signature_algorithm extension is ignored with these lower protocol versions and thus the server can send the SHA-256 signed certificate it has.

As can be seen from a capture with an openssl s_client in the provided pcaps the TLS 1.2 handshake works if the client provides the signature_algorithm extension and signals support for RSA and SHA-256.

  • Thank you @SteffenUllrich for your detailed analysis. do you think it might be related to stackoverflow.com/questions/22825663/… or how can i handle this from my .net code, SSL certificate creation steps as i have very little control over the client ? – Peru Apr 4 at 19:40
  • sorry if the questions sound stupid am relatively new to this crytpo side. we are using open ssl to create self signed certificates. if we use any other hash to create certificates will the ciphers match ? – Peru Apr 4 at 19:48
  • @Tharun: I don't think this is related. As for the certificate: these get created outside of the server application, for example bought from a public CA. But, SHA-1 certificates are deprecated for a while so no public CA will issue such a certificate. But, if the vendor claims to have support for TLS 1.2 then he should fix the problem. As for now your only choice is probably only to also allow TLS 1.1 and maybe TLS 1.0 which is still safe enough. – Steffen Ullrich Apr 4 at 19:53
  • @Tharun: if you create self-signed certificates then you can simply use sha1 as hash algorithm to create the certificate. But maybe it would be better to keep the sha256 and instead accept TLS 1.1 too. – Steffen Ullrich Apr 4 at 19:54
  • Thank you @SteffenUllrich for your detailed answers. – Peru Apr 4 at 20:10

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