In our Windows C++ application I am using InitializeSecurityContext() client side to open an schannel connection to a server which is running stunnel SSL proxy. My code now works, but only with a hack I would like to eliminate.
I started with this sample code:http://msdn.microsoft.com/en-us/library/aa380536%28v=VS.85%29.aspx
In the sample code, look at SendMsg and ReceiveMsg. The first 4 bytes of any message sent or received indicates the message length. This is fine for the sample, where the server portion of the sample conforms to the same convention.
stunnel does not seem to use this convention. When the client is receiving data during the handshake, how does it know when to stop receiving and make another call to InitializeSecurityContext()?
This is how I structured my code, based on what I could glean from the documentation:
1. call InitializeSecurityContext which returns an output buffer 2. Send output buffer to server 3. Receive response from server 4. call InitializeSecurityContext(server_response) which returns an output buffer 5. if SEC_E_INCOMPLETE_MESSAGE, go back to step 3, if SEC_I_CONTINUE_NEEDED go back to step 2
I expected InitializeSecurityContext in step 4 to return SEC_E_INCOMPLETE_MESSAGE if not enough data was read from the server in step 3. Instead, I get SEC_I_CONTINUE_NEEDED but an empty output buffer. I have experimented with a few ways to handle this case (e.g. go back to step 3), but none seemed to work and more importantly, I do not see this behavior documented.
In step 3 if I add a loop that receives data until a timeout expires, everything works fine in my test environment. But there must be a more reliable way.
What is the right way to know how much data to receive in step 3?