nghttp2/README.rst

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nghttp2 - HTTP/2 C Library
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==========================
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This is an implementation of Hypertext Transfer Protocol version 2
in C.
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The framing layer of HTTP/2 is implemented as a form of reusable C
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library. On top of that, we have implemented HTTP/2 client, server
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and proxy. We have also developed load test and benchmarking tool for
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HTTP/2 and SPDY.
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HPACK encoder and decoder are available as public API.
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The experimental high level C++ library is also available.
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We have Python binding of this libary, but we have not covered
everything yet.
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Development Status
------------------
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We started to implement h2-14
(http://tools.ietf.org/html/draft-ietf-httpbis-http2-14), the header
compression
(http://tools.ietf.org/html/draft-ietf-httpbis-header-compression-09)
and HTTP Alternative Services
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(http://tools.ietf.org/html/draft-ietf-httpbis-alt-svc-04).
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The nghttp2 code base was forked from spdylay project.
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=========================== =======
HTTP/2 Features Support
=========================== =======
Core frames handling Yes
Dependency Tree Yes
Large header (CONTINUATION) Yes
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ALTSVC extension Yes
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=========================== =======
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Public Test Server
------------------
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The following endpoints are available to try out nghttp2
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implementation.
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* https://nghttp2.org/ (TLS + ALPN/NPN)
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NPN offer ``h2-14``, ``spdy/3.1`` and ``http/1.1``.
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This endpoint requires TLSv1.2 for HTTP/2 connection.
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* http://nghttp2.org/ (Upgrade / Direct)
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``h2c-14`` and ``http/1.1``. We configured this server to send
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ALTSVC frame or Alt-Svc header field to announce that alternative
service is available at port 443.
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Requirements
------------
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The following package is required to build the libnghttp2 library:
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* pkg-config >= 0.20
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To build and run the unit test programs, the following package is
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required:
* cunit >= 2.1
To build the documentation, you need to install:
* sphinx (http://sphinx-doc.org/)
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To build and run the application programs (``nghttp``, ``nghttpd`` and
``nghttpx``) in ``src`` directory, the following packages are
required:
* OpenSSL >= 1.0.1
* libevent-openssl >= 2.0.8
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* zlib >= 1.2.3
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ALPN support requires unreleased version OpenSSL >= 1.0.2.
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To enable SPDY protocol in the application program ``nghttpx`` and
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``h2load``, the following package is required:
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* spdylay >= 1.3.0
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To enable ``-a`` option (getting linked assets from the downloaded
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resource) in ``nghttp``, the following package is required:
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* libxml2 >= 2.7.7
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The HPACK tools require the following package:
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* jansson >= 2.5
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To mitigate heap fragmentation in long running server programs
(``nghttpd`` and ``nghttpx``), jemalloc is recommended:
* jemalloc
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libnghttp2_asio C++ library requires the following packages:
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* libboost-dev >= 1.54.0
* libboost-thread-dev >= 1.54.0
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The Python bindings require the following packages:
* cython >= 0.19
* python >= 2.7
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If you are using Ubuntu 14.04 LTS, you need the following packages
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installed:
* make
* binutils
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* autoconf
* automake
* autotools-dev
* libtool
* pkg-config
* zlib1g-dev
* libcunit1-dev
* libssl-dev
* libxml2-dev
* libevent-dev
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* libjansson-dev
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* libjemalloc-dev
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* cython
* python3.4-dev
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spdylay is not packaged in Ubuntu, so you need to build it yourself:
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http://tatsuhiro-t.github.io/spdylay/
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Build from git
--------------
Building from git is easy, but please be sure that at least autoconf 2.68 is
used::
$ autoreconf -i
$ automake
$ autoconf
$ ./configure
$ make
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To compile source code, gcc >= 4.8.3 or clang >= 3.4 is required.
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.. note::
Mac OS X users may need ``--disable-threads`` configure option to
disable multi threading in nghttpd, nghttpx and h2load to prevent
them from crashing. Patch is welcome to make multi threading work
on Mac OS X platform.
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Building documentation
----------------------
.. note::
Documentation is still incomplete.
To build documentation, run::
$ make html
The documents will be generated under ``doc/manual/html/``.
The generated documents will not be installed with ``make install``.
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The online documentation is available at
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https://nghttp2.org/documentation/
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Client, Server and Proxy programs
---------------------------------
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The src directory contains HTTP/2 client, server and proxy programs.
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nghttp - client
+++++++++++++++
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``nghttp`` is a HTTP/2 client. It can connect to the HTTP/2 server
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with prior knowledge, HTTP Upgrade and NPN/ALPN TLS extension.
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It has verbose output mode for framing information. Here is sample
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output from ``nghttp`` client::
$ src/nghttp -nv https://nghttp2.org
[ 0.033][NPN] server offers:
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* h2-14
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* spdy/3.1
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* http/1.1
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The negotiated protocol: h2-14
[ 0.068] send SETTINGS frame <length=15, flags=0x00, stream_id=0>
(niv=3)
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[SETTINGS_MAX_CONCURRENT_STREAMS(3):100]
[SETTINGS_INITIAL_WINDOW_SIZE(4):65535]
[SETTINGS_COMPRESS_DATA(5):1]
[ 0.068] send HEADERS frame <length=46, flags=0x05, stream_id=1>
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; END_STREAM | END_HEADERS
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(padlen=0)
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; Open new stream
:authority: nghttp2.org
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:method: GET
:path: /
:scheme: https
accept: */*
accept-encoding: gzip, deflate
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user-agent: nghttp2/0.4.0-DEV
[ 0.068] recv SETTINGS frame <length=10, flags=0x00, stream_id=0>
(niv=2)
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[SETTINGS_MAX_CONCURRENT_STREAMS(3):100]
[SETTINGS_INITIAL_WINDOW_SIZE(4):65535]
[ 0.068] send SETTINGS frame <length=0, flags=0x01, stream_id=0>
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; ACK
(niv=0)
[ 0.079] recv SETTINGS frame <length=0, flags=0x01, stream_id=0>
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; ACK
(niv=0)
[ 0.080] (stream_id=1, noind=0) :status: 200
[ 0.080] (stream_id=1, noind=0) accept-ranges: bytes
[ 0.080] (stream_id=1, noind=0) age: 15
[ 0.080] (stream_id=1, noind=0) content-length: 40243
[ 0.080] (stream_id=1, noind=0) content-type: text/html
[ 0.080] (stream_id=1, noind=0) date: Wed, 14 May 2014 15:14:30 GMT
[ 0.080] (stream_id=1, noind=0) etag: "535d0eea-9d33"
[ 0.080] (stream_id=1, noind=0) last-modified: Sun, 27 Apr 2014 14:06:34 GMT
[ 0.080] (stream_id=1, noind=0) server: nginx/1.4.6 (Ubuntu)
[ 0.080] (stream_id=1, noind=0) x-varnish: 2114900538 2114900537
[ 0.080] (stream_id=1, noind=0) via: 1.1 varnish, 1.1 nghttpx
[ 0.080] (stream_id=1, noind=0) strict-transport-security: max-age=31536000
[ 0.080] recv HEADERS frame <length=162, flags=0x04, stream_id=1>
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; END_HEADERS
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(padlen=0)
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; First response header
[ 0.080] recv DATA frame <length=3786, flags=0x00, stream_id=1>
[ 0.080] recv DATA frame <length=4096, flags=0x00, stream_id=1>
[ 0.081] recv DATA frame <length=4096, flags=0x00, stream_id=1>
[ 0.093] recv DATA frame <length=4096, flags=0x00, stream_id=1>
[ 0.093] recv DATA frame <length=4096, flags=0x00, stream_id=1>
[ 0.094] recv DATA frame <length=4096, flags=0x00, stream_id=1>
[ 0.094] recv DATA frame <length=4096, flags=0x00, stream_id=1>
[ 0.094] recv DATA frame <length=4096, flags=0x00, stream_id=1>
[ 0.096] recv DATA frame <length=4096, flags=0x00, stream_id=1>
[ 0.096] send WINDOW_UPDATE frame <length=4, flags=0x00, stream_id=0>
(window_size_increment=36554)
[ 0.096] send WINDOW_UPDATE frame <length=4, flags=0x00, stream_id=1>
(window_size_increment=36554)
[ 0.108] recv DATA frame <length=3689, flags=0x00, stream_id=1>
[ 0.108] recv DATA frame <length=0, flags=0x01, stream_id=1>
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; END_STREAM
[ 0.108] send GOAWAY frame <length=8, flags=0x00, stream_id=0>
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(last_stream_id=0, error_code=NO_ERROR(0), opaque_data(0)=[])
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The HTTP Upgrade is performed like this::
$ src/nghttp -nvu http://nghttp2.org
[ 0.013] HTTP Upgrade request
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GET / HTTP/1.1
Host: nghttp2.org
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Connection: Upgrade, HTTP2-Settings
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Upgrade: h2c-14
HTTP2-Settings: AwAAAGQEAAD__wUAAAAB
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Accept: */*
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User-Agent: nghttp2/0.4.0-DEV
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[ 0.024] HTTP Upgrade response
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HTTP/1.1 101 Switching Protocols
Connection: Upgrade
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Upgrade: h2c-14
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[ 0.024] HTTP Upgrade success
[ 0.024] send SETTINGS frame <length=15, flags=0x00, stream_id=0>
(niv=3)
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[SETTINGS_MAX_CONCURRENT_STREAMS(3):100]
[SETTINGS_INITIAL_WINDOW_SIZE(4):65535]
[SETTINGS_COMPRESS_DATA(5):1]
[ 0.024] recv SETTINGS frame <length=10, flags=0x00, stream_id=0>
(niv=2)
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[SETTINGS_MAX_CONCURRENT_STREAMS(3):100]
[SETTINGS_INITIAL_WINDOW_SIZE(4):65535]
[ 0.024] recv ALTSVC frame <length=43, flags=0x00, stream_id=0>
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(max-age=86400, port=443, protocol_id=h2-14, host=nghttp2.org, origin=http://nghttp2.org)
[ 0.024] send SETTINGS frame <length=0, flags=0x01, stream_id=0>
; ACK
(niv=0)
[ 0.024] (stream_id=1, noind=0) :status: 200
[ 0.024] (stream_id=1, noind=0) accept-ranges: bytes
[ 0.024] (stream_id=1, noind=0) age: 10
[ 0.024] (stream_id=1, noind=0) content-length: 40243
[ 0.024] (stream_id=1, noind=0) content-type: text/html
[ 0.024] (stream_id=1, noind=0) date: Wed, 14 May 2014 15:16:34 GMT
[ 0.024] (stream_id=1, noind=0) etag: "535d0eea-9d33"
[ 0.024] (stream_id=1, noind=0) last-modified: Sun, 27 Apr 2014 14:06:34 GMT
[ 0.024] (stream_id=1, noind=0) server: nginx/1.4.6 (Ubuntu)
[ 0.024] (stream_id=1, noind=0) x-varnish: 2114900541 2114900540
[ 0.024] (stream_id=1, noind=0) via: 1.1 varnish, 1.1 nghttpx
[ 0.024] recv HEADERS frame <length=148, flags=0x04, stream_id=1>
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; END_HEADERS
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(padlen=0)
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; First response header
[ 0.024] recv DATA frame <length=3786, flags=0x00, stream_id=1>
[ 0.025] recv DATA frame <length=4096, flags=0x00, stream_id=1>
[ 0.031] recv DATA frame <length=4096, flags=0x00, stream_id=1>
[ 0.031] recv DATA frame <length=4096, flags=0x00, stream_id=1>
[ 0.032] recv DATA frame <length=4096, flags=0x00, stream_id=1>
[ 0.032] recv DATA frame <length=4096, flags=0x00, stream_id=1>
[ 0.033] recv DATA frame <length=4096, flags=0x00, stream_id=1>
[ 0.033] recv DATA frame <length=4096, flags=0x00, stream_id=1>
[ 0.033] send WINDOW_UPDATE frame <length=4, flags=0x00, stream_id=0>
(window_size_increment=33164)
[ 0.033] send WINDOW_UPDATE frame <length=4, flags=0x00, stream_id=1>
(window_size_increment=33164)
[ 0.038] recv DATA frame <length=4096, flags=0x00, stream_id=1>
[ 0.038] recv DATA frame <length=3689, flags=0x00, stream_id=1>
[ 0.038] recv DATA frame <length=0, flags=0x01, stream_id=1>
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; END_STREAM
[ 0.038] recv SETTINGS frame <length=0, flags=0x01, stream_id=0>
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; ACK
(niv=0)
[ 0.038] send GOAWAY frame <length=8, flags=0x00, stream_id=0>
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(last_stream_id=0, error_code=NO_ERROR(0), opaque_data(0)=[])
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nghttpd - server
++++++++++++++++
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``nghttpd`` is a multi-threaded static web server.
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By default, it uses SSL/TLS connection. Use ``--no-tls`` option to
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disable it.
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``nghttpd`` only accepts the HTTP/2 connection via NPN/ALPN or direct
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HTTP/2 connection. No HTTP Upgrade is supported.
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``-p`` option allows users to configure server push.
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Just like ``nghttp``, it has verbose output mode for framing
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information. Here is sample output from ``nghttpd`` server::
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$ src/nghttpd --no-tls -v 8080
IPv4: listen on port 8080
IPv6: listen on port 8080
[id=1] [ 15.921] send SETTINGS frame <length=10, flags=0x00, stream_id=0>
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(niv=2)
[SETTINGS_MAX_CONCURRENT_STREAMS(3):100]
[SETTINGS_COMPRESS_DATA(5):1]
[id=1] [ 15.921] recv SETTINGS frame <length=15, flags=0x00, stream_id=0>
(niv=3)
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[SETTINGS_MAX_CONCURRENT_STREAMS(3):100]
[SETTINGS_INITIAL_WINDOW_SIZE(4):65535]
[SETTINGS_COMPRESS_DATA(5):1]
[id=1] [ 15.921] (stream_id=1, noind=0) :authority: localhost:8080
[id=1] [ 15.921] (stream_id=1, noind=0) :method: GET
[id=1] [ 15.921] (stream_id=1, noind=0) :path: /
[id=1] [ 15.921] (stream_id=1, noind=0) :scheme: http
[id=1] [ 15.921] (stream_id=1, noind=0) accept: */*
[id=1] [ 15.921] (stream_id=1, noind=0) accept-encoding: gzip, deflate
[id=1] [ 15.921] (stream_id=1, noind=0) user-agent: nghttp2/0.4.0-DEV
[id=1] [ 15.921] recv HEADERS frame <length=48, flags=0x05, stream_id=1>
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; END_STREAM | END_HEADERS
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(padlen=0)
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; Open new stream
[id=1] [ 15.921] recv SETTINGS frame <length=0, flags=0x01, stream_id=0>
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; ACK
(niv=0)
[id=1] [ 15.921] send SETTINGS frame <length=0, flags=0x01, stream_id=0>
; ACK
(niv=0)
[id=1] [ 15.921] send HEADERS frame <length=82, flags=0x04, stream_id=1>
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; END_HEADERS
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(padlen=0)
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; First response header
:status: 200
cache-control: max-age=3600
content-length: 612
date: Wed, 14 May 2014 15:19:03 GMT
last-modified: Sat, 08 Mar 2014 16:04:06 GMT
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server: nghttpd nghttp2/0.4.0-DEV
[id=1] [ 15.922] send DATA frame <length=381, flags=0x20, stream_id=1>
; COMPRESSED
[id=1] [ 15.922] send DATA frame <length=0, flags=0x01, stream_id=1>
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; END_STREAM
[id=1] [ 15.922] stream_id=1 closed
[id=1] [ 15.922] recv GOAWAY frame <length=8, flags=0x00, stream_id=0>
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(last_stream_id=0, error_code=NO_ERROR(0), opaque_data(0)=[])
[id=1] [ 15.922] closed
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nghttpx - proxy
+++++++++++++++
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``nghttpx`` is a multi-threaded reverse proxy for ``h2-14``, SPDY and
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HTTP/1.1 and powers nghttp2.org site. It has several operation modes:
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================== ============================ ============== =============
Mode option Frontend Backend Note
================== ============================ ============== =============
default mode HTTP/2, SPDY, HTTP/1.1 (TLS) HTTP/1.1 Reverse proxy
``--http2-proxy`` HTTP/2, SPDY, HTTP/1.1 (TLS) HTTP/1.1 SPDY proxy
``--http2-bridge`` HTTP/2, SPDY, HTTP/1.1 (TLS) HTTP/2 (TLS)
``--client`` HTTP/2, HTTP/1.1 HTTP/2 (TLS)
``--client-proxy`` HTTP/2, HTTP/1.1 HTTP/2 (TLS) Forward proxy
================== ============================ ============== =============
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The interesting mode at the moment is the default mode. It works like
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a reverse proxy and listens for ``h2-14``, SPDY and HTTP/1.1 and can
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be deployed SSL/TLS terminator for existing web server.
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The default mode, ``--http2-proxy`` and ``--http2-bridge`` modes use
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SSL/TLS in the frontend connection by default. To disable SSL/TLS,
use ``--frontend-no-tls`` option. If that option is used, SPDY is
disabled in the frontend and incoming HTTP/1.1 connection can be
upgraded to HTTP/2 through HTTP Upgrade.
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The ``--http2-bridge``, ``--client`` and ``--client-proxy`` modes use
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SSL/TLS in the backend connection by deafult. To disable SSL/TLS, use
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``--backend-no-tls`` option.
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``nghttpx`` supports configuration file. See ``--conf`` option and
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sample configuration file ``nghttpx.conf.sample``.
``nghttpx`` does not support server push.
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In the default mode, (without any of ``--http2-proxy``,
``--http2-bridge``, ``--client-proxy`` and ``--client`` options),
``nghttpx`` works as reverse proxy to the backend server::
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Client <-- (HTTP/2, SPDY, HTTP/1.1) --> nghttpx <-- (HTTP/1.1) --> Web Server
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[reverse proxy]
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With ``--http2-proxy`` option, it works as so called secure proxy (aka
SPDY proxy)::
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Client <-- (HTTP/2, SPDY, HTTP/1.1) --> nghttpx <-- (HTTP/1.1) --> Proxy
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[secure proxy] (e.g., Squid, ATS)
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The ``Client`` in the above is needs to be configured to use
``nghttpx`` as secure proxy.
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At the time of this writing, Chrome is the only browser which supports
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secure proxy. The one way to configure Chrome to use secure proxy is
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create proxy.pac script like this:
.. code-block:: javascript
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function FindProxyForURL(url, host) {
return "HTTPS SERVERADDR:PORT";
}
``SERVERADDR`` and ``PORT`` is the hostname/address and port of the
machine nghttpx is running. Please note that Chrome requires valid
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certificate for secure proxy.
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Then run Chrome with the following arguments::
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$ google-chrome --proxy-pac-url=file:///path/to/proxy.pac --use-npn
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With ``--http2-bridge``, it accepts HTTP/2, SPDY and HTTP/1.1
connections and communicates with backend in HTTP/2::
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Client <-- (HTTP/2, SPDY, HTTP/1.1) --> nghttpx <-- (HTTP/2) --> Web or HTTP/2 Proxy etc
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(e.g., nghttpx -s)
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2013-08-03 12:44:13 +02:00
With ``--client-proxy`` option, it works as forward proxy and expects
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that the backend is HTTP/2 proxy::
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2014-03-30 12:09:21 +02:00
Client <-- (HTTP/2, HTTP/1.1) --> nghttpx <-- (HTTP/2) --> HTTP/2 Proxy
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[forward proxy] (e.g., nghttpx -s)
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The ``Client`` needs to be configured to use nghttpx as forward
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proxy. The frontend HTTP/1.1 connection can be upgraded to HTTP/2
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through HTTP Upgrade. With the above configuration, one can use
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HTTP/1.1 client to access and test their HTTP/2 servers.
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With ``--client`` option, it works as reverse proxy and expects that
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the backend is HTTP/2 Web server::
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2014-03-30 12:09:21 +02:00
Client <-- (HTTP/2, HTTP/1.1) --> nghttpx <-- (HTTP/2) --> Web Server
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[reverse proxy]
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The frontend HTTP/1.1 connection can be upgraded to HTTP/2
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through HTTP Upgrade.
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For the operation modes which talk to the backend in HTTP/2 over
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SSL/TLS, the backend connections can be tunneled through HTTP proxy.
The proxy is specified using ``--backend-http-proxy-uri`` option. The
following figure illustrates the example of ``--http2-bridge`` and
``--backend-http-proxy-uri`` options to talk to the outside HTTP/2
proxy through HTTP proxy::
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Client <-- (HTTP/2, SPDY, HTTP/1.1) --> nghttpx <-- (HTTP/2) --
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--===================---> HTTP/2 Proxy
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(HTTP proxy tunnel) (e.g., nghttpx -s)
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2014-03-02 15:44:43 +01:00
Benchmarking tool
-----------------
The ``h2load`` program is a benchmarking tool for HTTP/2 and SPDY.
The SPDY support is enabled if the program was built with spdylay
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library. The UI of ``h2load`` is heavily inspired by ``weighttp``
(https://github.com/lighttpd/weighttp). The typical usage is as
follows::
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$ src/h2load -n1000 -c10 -m10 https://127.0.0.1:8443/
starting benchmark...
progress: 10% done
progress: 20% done
progress: 30% done
progress: 40% done
progress: 50% done
progress: 60% done
progress: 70% done
progress: 80% done
progress: 90% done
progress: 100% done
finished in 0 sec, 152 millisec and 152 microsec, 6572 req/s, 749 kbytes/s
requests: 1000 total, 1000 started, 1000 done, 0 succeeded, 1000 failed, 0 errored
status codes: 0 2xx, 0 3xx, 1000 4xx, 0 5xx
traffic: 141100 bytes total, 840 bytes headers, 116000 bytes data
The above example issued total 1000 requests, using 10 concurrent
clients (thus 10 HTTP/2 sessions), and maximum 10 streams per client.
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With ``-t`` option, ``h2load`` will use multiple native threads to
avoid saturating single core on client side.
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.. warning::
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**Don't use this tool against publicly available servers.** That is
considered a DOS attack. Please only use against your private
servers.
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HPACK tools
-----------
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The ``src`` directory contains HPACK tools. The ``deflatehd`` is a
command-line header compression tool. The ``inflatehd`` is
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command-line header decompression tool. Both tools read input from
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stdin and write output to stdout. The errors are written to stderr.
They take JSON as input and output. We use (mostly) same JSON data
format described at https://github.com/http2jp/hpack-test-case
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deflatehd - header compressor
+++++++++++++++++++++++++++++
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The ``deflatehd`` reads JSON data or HTTP/1-style header fields from
stdin and outputs compressed header block in JSON.
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For the JSON input, the root JSON object must include ``cases`` key.
Its value has to include the sequence of input header set. They share
the same compression context and are processed in the order they
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appear. Each item in the sequence is a JSON object and it must
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include ``headers`` key. Its value is an array of a JSON object,
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which includes exactly one name/value pair.
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Example:
.. code-block:: json
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{
"cases":
[
{
"headers": [
{ ":method": "GET" },
{ ":path": "/" }
]
},
{
"headers": [
{ ":method": "POST" },
{ ":path": "/" }
]
}
]
}
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With ``-t`` option, the program can accept more familiar HTTP/1 style
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header field block. Each header set is delimited by empty line:
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Example::
:method: GET
:scheme: https
:path: /
:method: POST
user-agent: nghttp2
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The output is JSON object. It should include ``cases`` key and its
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value is an array of JSON object, which has at least following keys:
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seq
The index of header set in the input.
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input_length
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The sum of length of name/value pair in the input.
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output_length
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The length of compressed header block.
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percentage_of_original_size
``input_length`` / ``output_length`` * 100
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wire
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The compressed header block in hex string.
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headers
The input header set.
header_table_size
The header table size adjusted before deflating header set.
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Examples:
.. code-block:: json
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{
"cases":
[
{
"seq": 0,
"input_length": 66,
"output_length": 20,
"percentage_of_original_size": 30.303030303030305,
"wire": "01881f3468e5891afcbf83868a3d856659c62e3f",
"headers": [
{
":authority": "example.org"
},
{
":method": "GET"
},
{
":path": "/"
},
{
":scheme": "https"
},
{
"user-agent": "nghttp2"
}
],
"header_table_size": 4096
}
,
{
"seq": 1,
"input_length": 74,
"output_length": 10,
"percentage_of_original_size": 13.513513513513514,
"wire": "88448504252dd5918485",
"headers": [
{
":authority": "example.org"
},
{
":method": "POST"
},
{
":path": "/account"
},
{
":scheme": "https"
},
{
"user-agent": "nghttp2"
}
],
"header_table_size": 4096
}
]
}
The output can be used as the input for ``inflatehd`` and
``deflatehd``.
With ``-d`` option, the extra ``header_table`` key is added and its
associated value includes the state of dynamic header table after the
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corresponding header set was processed. The value includes at least
the following keys:
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entries
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The entry in the header table. If ``referenced`` is ``true``, it
is in the reference set. The ``size`` includes the overhead (32
bytes). The ``index`` corresponds to the index of header table.
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The ``name`` is the header field name and the ``value`` is the
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header field value.
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size
The sum of the spaces entries occupied, this includes the
entry overhead.
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max_size
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The maximum header table size.
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deflate_size
The sum of the spaces entries occupied within
``max_deflate_size``.
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max_deflate_size
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The maximum header table size encoder uses. This can be smaller
than ``max_size``. In this case, encoder only uses up to first
``max_deflate_size`` buffer. Since the header table size is still
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``max_size``, the encoder has to keep track of entries ouside the
``max_deflate_size`` but inside the ``max_size`` and make sure
that they are no longer referenced.
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Example:
.. code-block:: json
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{
"cases":
[
{
"seq": 0,
"input_length": 66,
"output_length": 20,
"percentage_of_original_size": 30.303030303030305,
"wire": "01881f3468e5891afcbf83868a3d856659c62e3f",
"headers": [
{
":authority": "example.org"
},
{
":method": "GET"
},
{
":path": "/"
},
{
":scheme": "https"
},
{
"user-agent": "nghttp2"
}
],
"header_table_size": 4096,
"header_table": {
"entries": [
{
"index": 1,
"name": "user-agent",
"value": "nghttp2",
"referenced": true,
"size": 49
},
{
"index": 2,
"name": ":scheme",
"value": "https",
"referenced": true,
"size": 44
},
{
"index": 3,
"name": ":path",
"value": "/",
"referenced": true,
"size": 38
},
{
"index": 4,
"name": ":method",
"value": "GET",
"referenced": true,
"size": 42
},
{
"index": 5,
"name": ":authority",
"value": "example.org",
"referenced": true,
"size": 53
}
],
"size": 226,
"max_size": 4096,
"deflate_size": 226,
"max_deflate_size": 4096
}
}
,
{
"seq": 1,
"input_length": 74,
"output_length": 10,
"percentage_of_original_size": 13.513513513513514,
"wire": "88448504252dd5918485",
"headers": [
{
":authority": "example.org"
},
{
":method": "POST"
},
{
":path": "/account"
},
{
":scheme": "https"
},
{
"user-agent": "nghttp2"
}
],
"header_table_size": 4096,
"header_table": {
"entries": [
{
"index": 1,
"name": ":method",
"value": "POST",
"referenced": true,
"size": 43
},
{
"index": 2,
"name": "user-agent",
"value": "nghttp2",
"referenced": true,
"size": 49
},
{
"index": 3,
"name": ":scheme",
"value": "https",
"referenced": true,
"size": 44
},
{
"index": 4,
"name": ":path",
"value": "/",
"referenced": false,
"size": 38
},
{
"index": 5,
"name": ":method",
"value": "GET",
"referenced": false,
"size": 42
},
{
"index": 6,
"name": ":authority",
"value": "example.org",
"referenced": true,
"size": 53
}
],
"size": 269,
"max_size": 4096,
"deflate_size": 269,
"max_deflate_size": 4096
}
}
]
}
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inflatehd - header decompressor
+++++++++++++++++++++++++++++++
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The ``inflatehd`` reads JSON data from stdin and outputs decompressed
name/value pairs in JSON.
2013-10-28 16:22:18 +01:00
2014-04-08 16:12:02 +02:00
The root JSON object must include ``cases`` key. Its value has to
include the sequence of compressed header block. They share the same
compression context and are processed in the order they appear. Each
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item in the sequence is a JSON object and it must have at least
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``wire`` key. Its value is a compressed header block in hex string.
2013-10-28 16:22:18 +01:00
2014-01-11 09:13:24 +01:00
Example:
.. code-block:: json
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{
"cases":
[
{ "wire": "8285" },
{ "wire": "8583" }
]
}
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The output is JSON object. It should include ``cases`` key and its
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value is an array of JSON object, which has at least following keys:
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seq
The index of header set in the input.
headers
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The JSON array includes decompressed name/value pairs.
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wire
The compressed header block in hex string.
header_table_size
The header table size adjusted before inflating compressed header
2014-01-11 09:06:26 +01:00
block.
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2014-01-11 09:13:24 +01:00
Example:
.. code-block:: json
2013-10-28 16:22:18 +01:00
2014-01-11 09:06:26 +01:00
{
"cases":
[
{
"seq": 0,
"wire": "01881f3468e5891afcbf83868a3d856659c62e3f",
"headers": [
{
":authority": "example.org"
},
{
":method": "GET"
},
{
":path": "/"
},
{
":scheme": "https"
},
{
"user-agent": "nghttp2"
}
],
"header_table_size": 4096
}
,
{
"seq": 1,
"wire": "88448504252dd5918485",
"headers": [
{
":method": "POST"
},
{
":path": "/account"
},
{
"user-agent": "nghttp2"
},
{
":scheme": "https"
},
{
":authority": "example.org"
}
],
"header_table_size": 4096
}
]
}
The output can be used as the input for ``deflatehd`` and
``inflatehd``.
With ``-d`` option, the extra ``header_table`` key is added and its
associated value includes the state of dynamic header table after the
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corresponding header set was processed. The format is the same as
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``deflatehd``.
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libnghttp2_asio: High level HTTP/2 C++ library
----------------------------------------------
libnghttp2_asio is C++ library built on top of libnghttp2 and provides
high level abstraction API to build HTTP/2 applications. It depends
on Boost::ASIO library and OpenSSL. Currently libnghttp2_asio
provides server side API.
libnghttp2_asio is not built by default. Use ``--enable-asio-lib``
configure flag to build libnghttp2_asio. The required Boost libraries
are:
* Boost::Asio
* Boost::System
* Boost::Thread
Server API is designed to build HTTP/2 server very easily to utilize
C++11 anonymous function and closure. The bare minimum example of
HTTP/2 server looks like this:
.. code-block:: cpp
#include <nghttp2/asio_http2.h>
using namespace nghttp2::asio_http2;
using namespace nghttp2::asio_http2::server;
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int main(int argc, char *argv[]) {
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http2 server;
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server.listen("*", 3000, [](const std::shared_ptr<request> &req,
const std::shared_ptr<response> &res) {
res->write_head(200);
res->end("hello, world");
});
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}
For more details, see the documentation of libnghttp2_asio.
Python bindings
---------------
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This ``python`` directory contains nghttp2 Python bindings. The
bindings currently provide HPACK compressor and decompressor classes
and HTTP/2 server.
The extension module is called ``nghttp2``.
``make`` will build the bindings and target Python version is
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determined by configure script. If the detected Python version is not
what you expect, specify a path to Python executable in ``PYTHON``
variable as an argument to configure script (e.g., ``./configure
PYTHON=/usr/bin/python3.4``).
The following example code illustrates basic usage of HPACK compressor
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and decompressor in Python:
.. code-block:: python
import binascii
import nghttp2
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deflater = nghttp2.HDDeflater()
inflater = nghttp2.HDInflater()
data = deflater.deflate([(b'foo', b'bar'),
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(b'baz', b'buz')])
print(binascii.b2a_hex(data))
hdrs = inflater.inflate(data)
print(hdrs)
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The ``nghttp2.HTTP2Server`` class builds on top of the asyncio event
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loop. On construction, *RequestHandlerClass* must be given, which
must be a subclass of ``nghttp2.BaseRequestHandler`` class.
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The ``BaseRequestHandler`` class is used to handle the HTTP/2 stream.
By default, it does nothing. It must be subclassed to handle each
event callback method.
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The first callback method invoked is ``on_headers()``. It is called
when HEADERS frame, which includes request header fields, has arrived.
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If request has request body, ``on_data(data)`` is invoked for each
chunk of received data.
When whole request is received, ``on_request_done()`` is invoked.
When stream is closed, ``on_close(error_code)`` is called.
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The application can send response using ``send_response()`` method.
It can be used in ``on_headers()``, ``on_data()`` or
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``on_request_done()``.
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The application can push resource using ``push()`` method. It must be
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used before ``send_response()`` call.
The following instance variables are available:
client_address
Contains a tuple of the form (host, port) referring to the
client's address.
stream_id
Stream ID of this stream.
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scheme
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Scheme of the request URI. This is a value of :scheme header
field.
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method
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Method of this stream. This is a value of :method header field.
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host
This is a value of :authority or host header field.
path
This is a value of :path header field.
The following example illustrates the HTTP2Server and
BaseRequestHandler usage:
.. code-block:: python
#!/usr/bin/env python
import io, ssl
import nghttp2
class Handler(nghttp2.BaseRequestHandler):
def on_headers(self):
self.push(path='/css/bootstrap.css',
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request_headers = [('content-length', '3')],
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status=200,
body='foo')
self.push(path='/js/bootstrap.js',
method='GET',
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request_headers = [('content-length', '10')],
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status=200,
body='foobarbuzz')
self.send_response(status=200,
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headers = [('content-type', 'text/plain')],
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body=io.BytesIO(b'nghttp2-python FTW'))
ctx = ssl.SSLContext(ssl.PROTOCOL_SSLv23)
ctx.options = ssl.OP_ALL | ssl.OP_NO_SSLv2
ctx.load_cert_chain('server.crt', 'server.key')
# give None to ssl to make the server non-SSL/TLS
server = nghttp2.HTTP2Server(('127.0.0.1', 8443), Handler, ssl=ctx)
server.serve_forever()
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Contribution
------------
[This text was composed based on 1.2. License section of curl/libcurl
project.]
When contributing with code, you agree to put your changes and new
code under the same license nghttp2 is already using unless stated and
agreed otherwise.
When changing existing source code, you do not alter the copyright of
the original file(s). The copyright will still be owned by the
original creator(s) or those who have been assigned copyright by the
original author(s).
By submitting a patch to the nghttp2 project, you are assumed to have
the right to the code and to be allowed by your employer or whatever
to hand over that patch/code to us. We will credit you for your
changes as far as possible, to give credit but also to keep a trace
back to who made what changes. Please always provide us with your
full real name when contributing!
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See `Contribution Guidelines
<https://nghttp2.org/documentation/contribute.html>`_ for more
details.