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We have a TCP stream protocol where we prefix our data payload by the size. So the data can be properly decoded when received. Pretty standard stuff.

This is working fine for thousands of people. Unfortunately we have at least 4 reported cases of clients having connection problems, all in remote countries. A client in Russia has been able to help us run lots of tests and narrowed the problem down. If we send a packet where the prefix size is forced to be 0 then the entire packet will make it through. If the packet data starts with 1c the packet won't make it through.

I have two side by side Wireshark captures from his computer that show this:

Russia -> Toronto [SYN]
Toronto -> Russia [SYN, ACK]
Russia -> Toronto [ACK]
Russia -> Toronto [PSH,ACK] <- data is sent here
Toronto -> Rusion [PSH,ACK] <- server in toronto got the data, sent a reply!

Russia -> Toronto [SYN]
Toronto -> Russia [SYN, ACK]
Russia -> Toronto [ACK]
Russia -> Toronto [PSH,ACK] <- data is sent here
Russia -> Toronto [PSH,ACK] <- TCP Retransmission
Russia -> Toronto [PSH,ACK] <- TCP Retransmission
Russia -> Toronto [PSH,ACK] <- TCP Retransmission
Russia -> Toronto [PSH,ACK] <- TCP Retransmission

Server in Toronto never gets the packet from Russia!

The actual client and servers use IOCP but my test app uses C# TcpListener and TcpClient with NO custom options flags at all.

Not actual code
var client = new TcpClient()
client.Connect(host, port)

var listener = new TcpListener(port);
var serverClient = listener.AcceptTcpClient();

Are there any further tests to recommend to get more information / solve this? My hunch was his hardware/drivers are corrupt but he claims to have no issues with any other application or internet in general.

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I would guess that there are some deep inspection devices in between which filter traffic. Often these devices are not very intelligent and just look at some pattern and ports. You might try to use alternative connections, e.g. try to use different ports or use a VPN tunnel. – Steffen Ullrich Apr 1 '14 at 8:47
This looks then like a deep inspection middlebox interfering with the traffic, often used to hamper P2P networks. If you cannot get another path (e.g. VPN) you can try to trick the box into thinking that you speak some "normal" protocol, e.g. make the initial handshake look like HTTP or SSL and use ports usually associated with these protocols. Other then that there is not much you can do :( – Steffen Ullrich Apr 1 '14 at 18:56
if @SteffenUllrich suguestion dosn't work (and i feel dirty for making this suggestion) try padding the payload with a zero. – Robert Apr 2 '14 at 9:08
<insert obvious NSA joke in here> – lorenzog Apr 4 '14 at 8:47
It sounds like 1c prefix is detected as some specific unwanted stream of data. Did you try to switch to HTTPS to skip this kind of testing? – Artem Apr 4 '14 at 17:36

Could it be that one of the end links is over a mobile carrier?

I don't have the data any more, but since we're in the realm of speculations I remember a similar problem with an Italian mobile carrier a while ago: apparently, a certain sequence of bits over a data connection would drop the carrier. Vaguely similar to the +++ATH0 old 'ping' trick.

Could you try sending a similar sequence (1c0000000....) through another medium, say a netcat stream?

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