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Counting HTTP: 0.9...3

Counting HTTP: 0.9...3

Oleksii Kachaiev

March 14, 2019
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  1. Year Protocol 1991 HTTP/0.9 1996 HTTP/1.0 1997 HTTP/1.1 Feb, 2010

    - Dec, 2011 WebSocket Jul, 2012 - Feb, 2015 SPDY Jun, 2014 revisioned HTTP/1.1 Aug, 2014 - May, 2015 HTTP/2.0 Jun, 2017 - Jul (?), 2019 HTTP/3.0
  2. $ telnet 127.0.0.1 8080 Trying 127.0.0.1... Connected to localhost. Escape

    character is '^]'. GET / HTTP/0.9 HTTP/0.9 200 OK Date: Sun, 08 Jul 2018 20:56:34 GMT content-length: 18 hello, world !
  3. HTTP/0.9 ↠ HTTP/1.0 • New methods • Content negotiation •

    Optional "Host" header • "Connection: keep-alive" • TCP handshake is slow • Even 20+ years ago it was a problem
  4. HTTP/1.0 ↠ HTTP/1.1 • Mandatory "Host" header • "100 Continue"

    • Chunked & byte-range transfers • Compression • "Upgrade" header (TLS, websockets)
  5. $ curl -v http://localhost:8080 * Rebuilt URL to: http://localhost:8080/ *

    Trying ::1... * TCP_NODELAY set * Connected to localhost (::1) port 8080 (#0) > GET / HTTP/1.1 > Host: localhost:8080 > User-Agent: curl/7.54.0 > Accept: */* > < HTTP/1.1 200 OK < Content-Type: text/plain < Server: Aleph/0.4.7 < Connection: Keep-Alive < Date: Sun, 08 Jul 2018 20:46:32 GMT < content-length: 18 < hello, world ! * Connection #0 to host localhost left intact
  6. WebSocket • Full-duplex communication • RFC 6455 "The WebSocket Protocol"

    • Handshaking using HTTP Upgrade header (compatibility) • Framing (text, binary, ping/pong, close, continuation)
  7. WebSocket Upgrade $ curl -v -H "Upgrade: websocket" \ -H

    "Connection: upgrade" \ -H "Sec-WebSocket-Key: x3JJHMbDL1EzLkh9GBhXDw==" \ -H "Sec-WebSocket-Protocol: chat" \ -H "Sec-WebSocket-Version: 13" \ http://echo.websocket.org * Rebuilt URL to: http://echo.websocket.org/ * Trying 174.129.224.73... * TCP_NODELAY set * Connected to echo.websocket.org (174.129.224.73) port 80 (#0) > GET / HTTP/1.1 > Host: echo.websocket.org > Upgrade: websocket > Connection: upgrade > Sec-WebSocket-Key: x3JJHMbDL1EzLkh9GBhXDw== > Sec-WebSocket-Protocol: chat > Sec-WebSocket-Version: 13
  8. WebSocket Upgrade < < HTTP/1.1 101 Web Socket Protocol Handshake

    < Connection: Upgrade < Date: Tue, 10 Jul 2018 09:11:33 GMT < Sec-WebSocket-Accept: HSmrc0sMlYUkAGmm5OPpG2HaGWk= < Server: Kaazing Gateway < Upgrade: websocket <
  9. ALPN • Application-Layer Protocol Negotiation Extention, RFC 7301 • allows

    the application layer to negotiate which protocol should be performed • replaced NPN (Next Protocol Negotiation Extension) • emerged from SPDY development
  10. ALPN $ curl -v https://github.com/ * Trying 192.30.253.112... * TCP_NODELAY

    set * Connected to github.com (192.30.253.112) port 443 (#0) * ALPN, offering h2 * ALPN, offering http/1.1 * Cipher selection: ALL:!EXPORT:!EXPORT40:!EXPORT56:!aNULL:!LOW:!RC4:@STRENGTH * TLSv1.2 (OUT), TLS handshake, Client hello (1): .... * SSL connection using TLSv1.2 / ECDHE-RSA-AES128-GCM-SHA256 * ALPN, server accepted to use http/1.1 * Server certificate: .... * SSL certificate verify ok. > GET / HTTP/1.1 > Host: github.com > User-Agent: curl/7.54.0 > Accept: */* > < HTTP/1.1 200 OK
  11. HTTP/2: WHY? • TCP handshake is still slow • Head-of-line

    blocking • Server to initiate the communication • TCP congestion control with tons of connections
  12. HTTP/2: HOW? • Binary, compression of HTTP headers (HPACK) •

    Pipelining of requests • Multiplexing over a single TCP connection • HTTP/2 Server Push • Settings management flow, priorities • ALPN, "Upgrade"
  13. W U no TCP? • Head of line blocking (still

    ! ) • Streams are not independent • 3 different handshakes: TCP, TLS, HTTP • Better with TLS1.3, but still • TCP relies on IP address • TCP is "hardcoded" into infrastructure (links, routers, kernel)
  14. QUIC: HOW? • UDP-based transport • Handshakes: 0-RTT, 1-RTT, early

    data • TLS1.3 encryption • ConnectionID instead of IP • Streams
  15. QUIC: UDP??? • User-space reliability: • re-transmissions, congesion, pacing •

    faster improvements/experiments • error prone? • Supported everywhere (heh DNS) • Kernels are mot optimized
  16. QUIC: Streams • Bi- or uni- directional • Initiated by

    any party • Independent not only logically!