I developing a distributed reverse proxy called PortFusion. Its initial goal was to establish long-time, minimal-overhead, high-throughput TCP tunnels through firewalls especially for RDP -- few, long-lived connections.
Now though, to answer user demand for security and for helping activists, I am extending it to support encryption and supporting lots of short-lived connections.
Hu 1000 <============ Cx 1000 Au [ 1001 1001=Ax:1000 ^ | | | | | | v Cu 1001 Au Hx 1000 Squid <----- 1001=Au:3128 [ 1001 <----- Firefox Legend: u you x person x A address H PortFusionHost [ hosted service C PortFusionClient < establish bidirectional link = encrypted, secure, bidirectional link - localhost-only, normal, bidirectional link Notes: - Squid as a forward HTTP proxy - Connection between two parties (===) are secure and encrypted - Cu is in complete control of what services are shared with Hx - A single Hu and a single Cu can handle multiple persons x y z
In the network set-up above, I check the
Connected property of sockets, for example the one
Hx accepts from Firefox @
Ax:1001, to propagate closures to corresponding mirroring sockets used by
Cu to communicate with Squid.
But they always stay connected!!
- Why do Firefox sockets always stay connected?
- Is Firefox not responsible for closing the sockets it opens for HTTP requests once it has got responses?
- Are there other external triggers I am missing that I can sense and use for closing sockets?
Information Regarding Accepted Answer
After the changes shown below, now both ends get immediately notified as soon as a request is fully responded to and closure propagation is working beautifully as expected. (In the past there was a different mechanism kicking in eventually clearing inactive sockets but it was not fast enough.)
Code (F#) Before:
try request serverPort cl [||] while transmitting && socket.Connected do if socket.Available = 0 then Thread.Sleep Wait else let length = read() LogFlow "<:>" "Read" serverPort "<-" client length request serverPort cl <| Array.sub buffer 0 length with
try request serverPort cl [||] while transmitting && read() > 0 do let length = !lengthR LogFlow "<:>" "Read" serverPort "<-" client length request serverPort cl <| Array.sub buffer 0 length with
read contains a call to
Socket.Receive and sets