This is an implementation of the Hypertext Transfer Protocol version 2 in C.
The framing layer of HTTP/2 is implemented as a reusable C library. On top of that, we have implemented an HTTP/2 client, server and proxy. We have also developed load test and benchmarking tools for HTTP/2 and SPDY.
An HPACK encoder and decoder are available as a public API.
An experimental high level C++ library is also available.
We have Python bindings of this library, but we do not have full code coverage yet.
We have implemented RFC 7540 HTTP/2 and RFC 7541 HPACK - Header Compression for HTTP/2
The nghttp2 code base was forked from the spdylay (https://github.com/tatsuhiro-t/spdylay) project.
The following endpoints are available to try out our nghttp2 implementation.
https://nghttp2.org/ (TLS + ALPN/NPN)
This endpoint supports
h2
,h2-16
,h2-14
,spdy/3.1
andhttp/1.1
via ALPN/NPN and requires TLSv1.2 for HTTP/2 connection.http://nghttp2.org/ (HTTP Upgrade and HTTP/2 Direct)
h2c
andhttp/1.1
.
The following package is required to build the libnghttp2 library:
- pkg-config >= 0.20
To build and run the unit test programs, the following package is required:
- cunit >= 2.1
To build the documentation, you need to install:
- sphinx (http://sphinx-doc.org/)
To build and run the application programs (nghttp
, nghttpd
and
nghttpx
) in the src
directory, the following packages are
required:
- OpenSSL >= 1.0.1
- libev >= 4.15
- zlib >= 1.2.3
ALPN support requires OpenSSL >= 1.0.2 (released 22 January 2015). LibreSSL >= 2.2.0 can be used instead of OpenSSL, but OpenSSL has more features than LibreSSL at the time of this writing.
To enable the SPDY protocol in the application program nghttpx
and
h2load
, the following package is required:
- spdylay >= 1.3.2
To enable -a
option (getting linked assets from the downloaded
resource) in nghttp
, the following package is required:
- libxml2 >= 2.7.7
The HPACK tools require the following package:
- jansson >= 2.5
To build sources under the examples directory, libevent is required:
- libevent-openssl >= 2.0.8
To mitigate heap fragmentation in long running server programs
(nghttpd
and nghttpx
), jemalloc is recommended:
- jemalloc
libnghttp2_asio C++ library requires the following packages:
- libboost-dev >= 1.54.0
- libboost-thread-dev >= 1.54.0
The Python bindings require the following packages:
- cython >= 0.19
- python >= 2.7
- python-setuptools
If you are using Ubuntu 14.04 LTS (trusty), run the following to install the needed packages:
sudo apt-get install make binutils autoconf automake autotools-dev libtool pkg-config \ zlib1g-dev libcunit1-dev libssl-dev libxml2-dev libev-dev libevent-dev libjansson-dev \ libjemalloc-dev cython python3.4-dev python-setuptools
spdylay is not packaged in Ubuntu, so you need to build it yourself: http://tatsuhiro-t.github.io/spdylay/
To enable mruby support for nghttpx, mruby is required. We need to build
mruby with C++ ABI explicitly turned on, and probably need other
mrgems, mruby is manged by git submodule under third-party/mruby
directory. Currently, mruby support for nghttpx is disabled by
default. To enable mruby support, use --with-mruby
configure
option. Note that at the time of this writing, libmruby-dev and mruby
packages in Debian/Ubuntu are not usable for nghttp2, since they do
not enable C++ ABI. To build mruby, the following packages are
required:
- ruby
- bison
nghttpx supports neverbleed,
privilege separation engine for OpenSSL / LibreSSL. In short, it
minimizes the risk of private key leakage when serious bug like
Heartbleed is exploited. The neverbleed is disabled by default. To
enable it, use --with-neverbleed
configure option.
Building from git is easy, but please be sure that at least autoconf 2.68 is used:
$ autoreconf -i $ automake $ autoconf $ ./configure $ make
To compile the source code, gcc >= 4.8.3 or clang >= 3.4 is required.
Note
To enable mruby support in nghttpx, run git submodule update
--init
before running configure script, and use --with-mruby
configure option.
Note
Mac OS X users may need the --disable-threads
configure option to
disable multi-threading in nghttpd, nghttpx and h2load to prevent
them from crashing. A patch is welcome to make multi threading work
on Mac OS X platform.
Under Mingw environment, you can only compile the library, it's
libnghttp2-X.dll
and libnghttp2.a
.
If you want to compile the applications(h2load
, nghttp
,
nghttpx
, nghttpd
), you need to use the Cygwin environment.
Under Cygwin environment, to compile the applications you need to compile and install the libev first.
Secondly, you need to undefine the macro __STRICT_ANSI__
, if you
not, the functions fdopen
, fileno
and strptime
will not
available.
the sample command like this:
$ export CFLAGS="-U__STRICT_ANSI__ -I$libev_PREFIX/include -L$libev_PREFIX/lib" $ export CXXFLAGS=$CFLAGS $ ./configure $ make
If you want to compile the applications under examples/
, you need
to remove or rename the event.h
from libev's installation, because
it conflicts with libevent's installation.
Note
Documentation is still incomplete.
To build the documentation, run:
$ make html
The documents will be generated under doc/manual/html/
.
The generated documents will not be installed with make install
.
The online documentation is available at https://nghttp2.org/documentation/
Unit tests are done by simply running make check
.
We have the integration tests for the nghttpx proxy server. The tests are written in the Go programming language and uses its testing framework. We depend on the following libraries:
- https://github.com/bradfitz/http2
- https://github.com/tatsuhiro-t/go-nghttp2
- https://github.com/tatsuhiro-t/spdy
- golang.org/x/net/websocket
To download the above packages, after settings GOPATH
, run the
following command under integration-tests
directory:
$ make itprep
To run the tests, run the following command under
integration-tests
directory:
$ make it
Inside the tests, we use port 3009 to run the test subject server.
Note
github.com/tatsuhiro-t/spdy is a copy used to be available at golang.org/x/net/spdy, but it is now gone.
nghttp2 v1.0.0 introduced several backward incompatible changes. In this section, we describe these changes and how to migrate to v1.0.0.
Previously we announced h2-14
and h2c-14
. v1.0.0 implements
final protocol version, and we changed ALPN ID to h2
and h2c
.
The macros NGHTTP2_PROTO_VERSION_ID
,
NGHTTP2_PROTO_VERSION_ID_LEN
,
NGHTTP2_CLEARTEXT_PROTO_VERSION_ID
, and
NGHTTP2_CLEARTEXT_PROTO_VERSION_ID_LEN
have been updated to
reflect this change.
Basically, existing applications do not have to do anything, just recompiling is enough for this change.
We use "client connection preface" to mean first 24 bytes of client connection preface. This is technically not correct, since client connection preface is composed of 24 bytes client magic byte string followed by SETTINGS frame. For clarification, we call "client magic" for this 24 bytes byte string and updated API.
NGHTTP2_CLIENT_CONNECTION_PREFACE
was replaced withNGHTTP2_CLIENT_MAGIC
.NGHTTP2_CLIENT_CONNECTION_PREFACE_LEN
was replaced withNGHTTP2_CLIENT_MAGIC_LEN
.NGHTTP2_BAD_PREFACE
was renamed asNGHTTP2_BAD_CLIENT_MAGIC
The alreay deprecated NGHTTP2_CLIENT_CONNECTION_HEADER
and
NGHTTP2_CLIENT_CONNECTION_HEADER_LEN
were removed.
If application uses these macros, just replace old ones with new ones. Since v1.0.0, client magic is sent by library (see next subsection), so client application may just remove these macro use.
Previously nghttp2 library did not send client magic, which is first
24 bytes byte string of client connection preface, and client
applications have to send it by themselves. Since v1.0.0, client
magic is sent by library via first call of nghttp2_session_send()
or nghttp2_session_mem_send()
.
The client applications which send client magic must remove the relevant code.
Alt-Svc specification is not finalized yet. To make our API stable, we have decided to remove all Alt-Svc related API from nghttp2.
NGHTTP2_EXT_ALTSVC
was removed.nghttp2_ext_altsvc
was removed.
We have already removed the functionality of Alt-Svc in v0.7 series and they have been essentially noop. The application using these macro and struct, remove those lines.
Previously nghttp2_on_invalid_frame_recv_cb_called
took the
error_code
, defined in nghttp2_error_code
, as parameter. But
they are not detailed enough to debug. Therefore, we decided to use
more detailed nghttp2_error
values instead.
The application using this callback should update the callback
signature. If it treats error_code
as HTTP/2 error code, update
the code so that it is treated as nghttp2_error
.
Previously nghttp2 did not process client magic (24 bytes byte
string). To make it deal with it, we had to use
nghttp2_option_set_recv_client_preface()
. Since v1.0.0, nghttp2
processes client magic by default and
nghttp2_option_set_recv_client_preface()
was removed.
Some application may want to disable this behaviour, so we added
nghttp2_option_set_no_recv_client_magic()
to achieve this.
The application using nghttp2_option_set_recv_client_preface()
with nonzero value, just remove it.
The application using nghttp2_option_set_recv_client_preface()
with zero value or not using it must use
nghttp2_option_set_no_recv_client_magic()
with nonzero value.
The src
directory contains the HTTP/2 client, server and proxy programs.
nghttp
is a HTTP/2 client. It can connect to the HTTP/2 server
with prior knowledge, HTTP Upgrade and NPN/ALPN TLS extension.
It has verbose output mode for framing information. Here is sample
output from nghttp
client:
$ nghttp -nv https://nghttp2.org [ 0.190] Connected The negotiated protocol: h2 [ 0.212] recv SETTINGS frame <length=12, flags=0x00, stream_id=0> (niv=2) [SETTINGS_MAX_CONCURRENT_STREAMS(0x03):100] [SETTINGS_INITIAL_WINDOW_SIZE(0x04):65535] [ 0.212] send SETTINGS frame <length=12, flags=0x00, stream_id=0> (niv=2) [SETTINGS_MAX_CONCURRENT_STREAMS(0x03):100] [SETTINGS_INITIAL_WINDOW_SIZE(0x04):65535] [ 0.212] send SETTINGS frame <length=0, flags=0x01, stream_id=0> ; ACK (niv=0) [ 0.212] send PRIORITY frame <length=5, flags=0x00, stream_id=3> (dep_stream_id=0, weight=201, exclusive=0) [ 0.212] send PRIORITY frame <length=5, flags=0x00, stream_id=5> (dep_stream_id=0, weight=101, exclusive=0) [ 0.212] send PRIORITY frame <length=5, flags=0x00, stream_id=7> (dep_stream_id=0, weight=1, exclusive=0) [ 0.212] send PRIORITY frame <length=5, flags=0x00, stream_id=9> (dep_stream_id=7, weight=1, exclusive=0) [ 0.212] send PRIORITY frame <length=5, flags=0x00, stream_id=11> (dep_stream_id=3, weight=1, exclusive=0) [ 0.212] send HEADERS frame <length=39, flags=0x25, stream_id=13> ; END_STREAM | END_HEADERS | PRIORITY (padlen=0, dep_stream_id=11, weight=16, exclusive=0) ; Open new stream :method: GET :path: / :scheme: https :authority: nghttp2.org accept: */* accept-encoding: gzip, deflate user-agent: nghttp2/1.0.1-DEV [ 0.221] recv SETTINGS frame <length=0, flags=0x01, stream_id=0> ; ACK (niv=0) [ 0.221] recv (stream_id=13) :method: GET [ 0.221] recv (stream_id=13) :scheme: https [ 0.221] recv (stream_id=13) :path: /stylesheets/screen.css [ 0.221] recv (stream_id=13) :authority: nghttp2.org [ 0.221] recv (stream_id=13) accept-encoding: gzip, deflate [ 0.222] recv (stream_id=13) user-agent: nghttp2/1.0.1-DEV [ 0.222] recv PUSH_PROMISE frame <length=50, flags=0x04, stream_id=13> ; END_HEADERS (padlen=0, promised_stream_id=2) [ 0.222] recv (stream_id=13) :status: 200 [ 0.222] recv (stream_id=13) date: Thu, 21 May 2015 16:38:14 GMT [ 0.222] recv (stream_id=13) content-type: text/html [ 0.222] recv (stream_id=13) last-modified: Fri, 15 May 2015 15:38:06 GMT [ 0.222] recv (stream_id=13) etag: W/"555612de-19f6" [ 0.222] recv (stream_id=13) link: </stylesheets/screen.css>; rel=preload; as=stylesheet [ 0.222] recv (stream_id=13) content-encoding: gzip [ 0.222] recv (stream_id=13) server: nghttpx nghttp2/1.0.1-DEV [ 0.222] recv (stream_id=13) via: 1.1 nghttpx [ 0.222] recv (stream_id=13) strict-transport-security: max-age=31536000 [ 0.222] recv HEADERS frame <length=166, flags=0x04, stream_id=13> ; END_HEADERS (padlen=0) ; First response header [ 0.222] recv DATA frame <length=2601, flags=0x01, stream_id=13> ; END_STREAM [ 0.222] recv (stream_id=2) :status: 200 [ 0.222] recv (stream_id=2) date: Thu, 21 May 2015 16:38:14 GMT [ 0.222] recv (stream_id=2) content-type: text/css [ 0.222] recv (stream_id=2) last-modified: Fri, 15 May 2015 15:38:06 GMT [ 0.222] recv (stream_id=2) etag: W/"555612de-9845" [ 0.222] recv (stream_id=2) content-encoding: gzip [ 0.222] recv (stream_id=2) server: nghttpx nghttp2/1.0.1-DEV [ 0.222] recv (stream_id=2) via: 1.1 nghttpx [ 0.222] recv (stream_id=2) strict-transport-security: max-age=31536000 [ 0.222] recv HEADERS frame <length=32, flags=0x04, stream_id=2> ; END_HEADERS (padlen=0) ; First push response header [ 0.228] recv DATA frame <length=8715, flags=0x01, stream_id=2> ; END_STREAM [ 0.228] send GOAWAY frame <length=8, flags=0x00, stream_id=0> (last_stream_id=2, error_code=NO_ERROR(0x00), opaque_data(0)=[])
The HTTP Upgrade is performed like so:
$ nghttp -nvu http://nghttp2.org [ 0.011] Connected [ 0.011] HTTP Upgrade request GET / HTTP/1.1 Host: nghttp2.org Connection: Upgrade, HTTP2-Settings Upgrade: h2c HTTP2-Settings: AAMAAABkAAQAAP__ Accept: */* User-Agent: nghttp2/1.0.1-DEV [ 0.018] HTTP Upgrade response HTTP/1.1 101 Switching Protocols Connection: Upgrade Upgrade: h2c [ 0.018] HTTP Upgrade success [ 0.018] recv SETTINGS frame <length=12, flags=0x00, stream_id=0> (niv=2) [SETTINGS_MAX_CONCURRENT_STREAMS(0x03):100] [SETTINGS_INITIAL_WINDOW_SIZE(0x04):65535] [ 0.018] send SETTINGS frame <length=12, flags=0x00, stream_id=0> (niv=2) [SETTINGS_MAX_CONCURRENT_STREAMS(0x03):100] [SETTINGS_INITIAL_WINDOW_SIZE(0x04):65535] [ 0.018] send SETTINGS frame <length=0, flags=0x01, stream_id=0> ; ACK (niv=0) [ 0.018] send PRIORITY frame <length=5, flags=0x00, stream_id=3> (dep_stream_id=0, weight=201, exclusive=0) [ 0.018] send PRIORITY frame <length=5, flags=0x00, stream_id=5> (dep_stream_id=0, weight=101, exclusive=0) [ 0.018] send PRIORITY frame <length=5, flags=0x00, stream_id=7> (dep_stream_id=0, weight=1, exclusive=0) [ 0.018] send PRIORITY frame <length=5, flags=0x00, stream_id=9> (dep_stream_id=7, weight=1, exclusive=0) [ 0.018] send PRIORITY frame <length=5, flags=0x00, stream_id=11> (dep_stream_id=3, weight=1, exclusive=0) [ 0.018] send PRIORITY frame <length=5, flags=0x00, stream_id=1> (dep_stream_id=11, weight=16, exclusive=0) [ 0.019] recv (stream_id=1) :method: GET [ 0.019] recv (stream_id=1) :scheme: http [ 0.019] recv (stream_id=1) :path: /stylesheets/screen.css [ 0.019] recv (stream_id=1) host: nghttp2.org [ 0.019] recv (stream_id=1) user-agent: nghttp2/1.0.1-DEV [ 0.019] recv PUSH_PROMISE frame <length=49, flags=0x04, stream_id=1> ; END_HEADERS (padlen=0, promised_stream_id=2) [ 0.019] recv (stream_id=1) :status: 200 [ 0.019] recv (stream_id=1) date: Thu, 21 May 2015 16:39:16 GMT [ 0.019] recv (stream_id=1) content-type: text/html [ 0.019] recv (stream_id=1) content-length: 6646 [ 0.019] recv (stream_id=1) last-modified: Fri, 15 May 2015 15:38:06 GMT [ 0.019] recv (stream_id=1) etag: "555612de-19f6" [ 0.019] recv (stream_id=1) link: </stylesheets/screen.css>; rel=preload; as=stylesheet [ 0.019] recv (stream_id=1) accept-ranges: bytes [ 0.019] recv (stream_id=1) server: nghttpx nghttp2/1.0.1-DEV [ 0.019] recv (stream_id=1) via: 1.1 nghttpx [ 0.019] recv HEADERS frame <length=157, flags=0x04, stream_id=1> ; END_HEADERS (padlen=0) ; First response header [ 0.019] recv DATA frame <length=6646, flags=0x01, stream_id=1> ; END_STREAM [ 0.019] recv (stream_id=2) :status: 200 [ 0.019] recv (stream_id=2) date: Thu, 21 May 2015 16:39:16 GMT [ 0.019] recv (stream_id=2) content-type: text/css [ 0.019] recv (stream_id=2) content-length: 38981 [ 0.019] recv (stream_id=2) last-modified: Fri, 15 May 2015 15:38:06 GMT [ 0.019] recv (stream_id=2) etag: "555612de-9845" [ 0.019] recv (stream_id=2) accept-ranges: bytes [ 0.019] recv (stream_id=2) server: nghttpx nghttp2/1.0.1-DEV [ 0.019] recv (stream_id=2) via: 1.1 nghttpx [ 0.019] recv HEADERS frame <length=36, flags=0x04, stream_id=2> ; END_HEADERS (padlen=0) ; First push response header [ 0.026] recv DATA frame <length=16384, flags=0x00, stream_id=2> [ 0.027] recv DATA frame <length=7952, flags=0x00, stream_id=2> [ 0.027] send WINDOW_UPDATE frame <length=4, flags=0x00, stream_id=0> (window_size_increment=33343) [ 0.032] send WINDOW_UPDATE frame <length=4, flags=0x00, stream_id=2> (window_size_increment=33707) [ 0.032] recv DATA frame <length=14645, flags=0x01, stream_id=2> ; END_STREAM [ 0.032] recv SETTINGS frame <length=0, flags=0x01, stream_id=0> ; ACK (niv=0) [ 0.032] send GOAWAY frame <length=8, flags=0x00, stream_id=0> (last_stream_id=2, error_code=NO_ERROR(0x00), opaque_data(0)=[])
Using the -s
option, nghttp
prints out some timing information for
requests, sorted by completion time:
$ nghttp -nas https://nghttp2.org/ ***** Statistics ***** Request timing: responseEnd: the time when last byte of response was received relative to connectEnd requestStart: the time just before first byte of request was sent relative to connectEnd. If '*' is shown, this was pushed by server. process: responseEnd - requestStart code: HTTP status code size: number of bytes received as response body without inflation. URI: request URI see http://www.w3.org/TR/resource-timing/#processing-model sorted by 'complete' id responseEnd requestStart process code size request path 13 +37.19ms +280us 36.91ms 200 2K / 2 +72.65ms * +36.38ms 36.26ms 200 8K /stylesheets/screen.css 17 +77.43ms +38.67ms 38.75ms 200 3K /javascripts/octopress.js 15 +78.12ms +38.66ms 39.46ms 200 3K /javascripts/modernizr-2.0.js
Using the -r
option, nghttp
writes more detailed timing data to
the given file in HAR format.
nghttpd
is a multi-threaded static web server.
By default, it uses SSL/TLS connection. Use --no-tls
option to
disable it.
nghttpd
only accepts HTTP/2 connections via NPN/ALPN or direct
HTTP/2 connections. No HTTP Upgrade is supported.
The -p
option allows users to configure server push.
Just like nghttp
, it has a verbose output mode for framing
information. Here is sample output from nghttpd
:
$ nghttpd --no-tls -v 8080 IPv4: listen 0.0.0.0:8080 IPv6: listen :::8080 [id=1] [ 1.521] send SETTINGS frame <length=6, flags=0x00, stream_id=0> (niv=1) [SETTINGS_MAX_CONCURRENT_STREAMS(0x03):100] [id=1] [ 1.521] recv SETTINGS frame <length=12, flags=0x00, stream_id=0> (niv=2) [SETTINGS_MAX_CONCURRENT_STREAMS(0x03):100] [SETTINGS_INITIAL_WINDOW_SIZE(0x04):65535] [id=1] [ 1.521] recv SETTINGS frame <length=0, flags=0x01, stream_id=0> ; ACK (niv=0) [id=1] [ 1.521] recv PRIORITY frame <length=5, flags=0x00, stream_id=3> (dep_stream_id=0, weight=201, exclusive=0) [id=1] [ 1.521] recv PRIORITY frame <length=5, flags=0x00, stream_id=5> (dep_stream_id=0, weight=101, exclusive=0) [id=1] [ 1.521] recv PRIORITY frame <length=5, flags=0x00, stream_id=7> (dep_stream_id=0, weight=1, exclusive=0) [id=1] [ 1.521] recv PRIORITY frame <length=5, flags=0x00, stream_id=9> (dep_stream_id=7, weight=1, exclusive=0) [id=1] [ 1.521] recv PRIORITY frame <length=5, flags=0x00, stream_id=11> (dep_stream_id=3, weight=1, exclusive=0) [id=1] [ 1.521] recv (stream_id=13) :method: GET [id=1] [ 1.521] recv (stream_id=13) :path: / [id=1] [ 1.521] recv (stream_id=13) :scheme: http [id=1] [ 1.521] recv (stream_id=13) :authority: localhost:8080 [id=1] [ 1.521] recv (stream_id=13) accept: */* [id=1] [ 1.521] recv (stream_id=13) accept-encoding: gzip, deflate [id=1] [ 1.521] recv (stream_id=13) user-agent: nghttp2/1.0.0-DEV [id=1] [ 1.521] recv HEADERS frame <length=41, flags=0x25, stream_id=13> ; END_STREAM | END_HEADERS | PRIORITY (padlen=0, dep_stream_id=11, weight=16, exclusive=0) ; Open new stream [id=1] [ 1.521] send SETTINGS frame <length=0, flags=0x01, stream_id=0> ; ACK (niv=0) [id=1] [ 1.521] send HEADERS frame <length=86, flags=0x04, stream_id=13> ; END_HEADERS (padlen=0) ; First response header :status: 200 server: nghttpd nghttp2/1.0.0-DEV content-length: 10 cache-control: max-age=3600 date: Fri, 15 May 2015 14:49:04 GMT last-modified: Tue, 30 Sep 2014 12:40:52 GMT [id=1] [ 1.522] send DATA frame <length=10, flags=0x01, stream_id=13> ; END_STREAM [id=1] [ 1.522] stream_id=13 closed [id=1] [ 1.522] recv GOAWAY frame <length=8, flags=0x00, stream_id=0> (last_stream_id=0, error_code=NO_ERROR(0x00), opaque_data(0)=[]) [id=1] [ 1.522] closed
nghttpx
is a multi-threaded reverse proxy for HTTP/2, SPDY and
HTTP/1.1, and powers http://nghttp2.org and supports HTTP/2 server
push.
nghttpx
implements important performance-oriented features in TLS, such as
session IDs, session tickets (with automatic key rotation), OCSP
stapling, dynamic record sizing, ALPN/NPN, forward secrecy and SPDY &
HTTP/2.
nghttpx
has several operational modes:
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) | Â |
--client |
HTTP/2, HTTP/1.1 | HTTP/2 (TLS) | Â |
--client-proxy |
HTTP/2, HTTP/1.1 | HTTP/2 (TLS) | Forward proxy |
The interesting mode at the moment is the default mode. It works like a reverse proxy and listens for HTTP/2, SPDY and HTTP/1.1 and can be deployed as a SSL/TLS terminator for existing web server.
The default mode, --http2-proxy
and --http2-bridge
modes use
SSL/TLS in the frontend connection by default. To disable SSL/TLS,
use the --frontend-no-tls
option. If that option is used, SPDY is
disabled in the frontend and incoming HTTP/1.1 connections can be
upgraded to HTTP/2 through HTTP Upgrade.
The --http2-bridge
, --client
and --client-proxy
modes use
SSL/TLS in the backend connection by default. To disable SSL/TLS, use
the --backend-no-tls
option.
nghttpx
supports a configuration file. See the --conf
option and
sample configuration file nghttpx.conf.sample
.
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:
Client <-- (HTTP/2, SPDY, HTTP/1.1) --> nghttpx <-- (HTTP/1.1) --> Web Server [reverse proxy]
With the --http2-proxy
option, it works as a so called secure proxy (aka
SPDY proxy):
Client <-- (HTTP/2, SPDY, HTTP/1.1) --> nghttpx <-- (HTTP/1.1) --> Proxy [secure proxy] (e.g., Squid, ATS)
The Client
in the above example needs to be configured to use
nghttpx
as secure proxy.
At the time of this writing, Chrome is the only browser which supports secure proxy. One way to configure Chrome to use a secure proxy is to create a proxy.pac script like this:
function FindProxyForURL(url, host) {
return "HTTPS SERVERADDR:PORT";
}
SERVERADDR
and PORT
is the hostname/address and port of the
machine nghttpx is running on. Please note that Chrome requires a valid
certificate for secure proxy.
Then run Chrome with the following arguments:
$ google-chrome --proxy-pac-url=file:///path/to/proxy.pac --use-npn
With --http2-bridge
, it accepts HTTP/2, SPDY and HTTP/1.1
connections and communicates with the backend in HTTP/2:
Client <-- (HTTP/2, SPDY, HTTP/1.1) --> nghttpx <-- (HTTP/2) --> Web or HTTP/2 Proxy etc (e.g., nghttpx -s)
With --client-proxy
, it works as a forward proxy and expects
that the backend is an HTTP/2 proxy:
Client <-- (HTTP/2, HTTP/1.1) --> nghttpx <-- (HTTP/2) --> HTTP/2 Proxy [forward proxy] (e.g., nghttpx -s)
The Client
needs to be configured to use nghttpx as a forward
proxy. The frontend HTTP/1.1 connection can be upgraded to HTTP/2
through HTTP Upgrade. With the above configuration, one can use
HTTP/1.1 client to access and test their HTTP/2 servers.
With --client
, it works as a reverse proxy and expects that
the backend is an HTTP/2 Web server:
Client <-- (HTTP/2, HTTP/1.1) --> nghttpx <-- (HTTP/2) --> Web Server [reverse proxy]
The frontend HTTP/1.1 connection can be upgraded to HTTP/2 through HTTP Upgrade.
For the operation modes which talk to the backend in HTTP/2 over
SSL/TLS, the backend connections can be tunneled through an HTTP proxy.
The proxy is specified using --backend-http-proxy-uri
. The
following figure illustrates the example of the --http2-bridge
and
--backend-http-proxy-uri
options to talk to the outside HTTP/2
proxy through an HTTP proxy:
Client <-- (HTTP/2, SPDY, HTTP/1.1) --> nghttpx <-- (HTTP/2) -- --===================---> HTTP/2 Proxy (HTTP proxy tunnel) (e.g., nghttpx -s)
The h2load
program is a benchmarking tool for HTTP/2 and SPDY.
The SPDY support is enabled if the program was built with the spdylay
library. The UI of h2load
is heavily inspired by weighttp
(https://github.com/lighttpd/weighttp). The typical usage is as
follows:
$ h2load -n100000 -c100 -m100 https://localhost:8443/ starting benchmark... spawning thread #0: 100 concurrent clients, 100000 total requests Protocol: TLSv1.2 Cipher: ECDHE-RSA-AES128-GCM-SHA256 Server Temp Key: ECDH P-256 256 bits 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 771.26ms, 129658 req/s, 4.71MB/s requests: 100000 total, 100000 started, 100000 done, 100000 succeeded, 0 failed, 0 errored status codes: 100000 2xx, 0 3xx, 0 4xx, 0 5xx traffic: 3812300 bytes total, 1009900 bytes headers, 1000000 bytes data min max mean sd +/- sd time for request: 25.12ms 124.55ms 51.07ms 15.36ms 84.87% time for connect: 208.94ms 254.67ms 241.38ms 7.95ms 63.00% time to 1st byte: 209.11ms 254.80ms 241.51ms 7.94ms 63.00%
The above example issued total 100,000 requests, using 100 concurrent
clients (in other words, 100 HTTP/2 sessions), and a maximum of 100 streams
per client. With the -t
option, h2load
will use multiple native
threads to avoid saturating a single core on client side.
Warning
Don't use this tool against publicly available servers. That is considered a DOS attack. Please only use it against your private servers.
The src
directory contains the HPACK tools. The deflatehd
program is a
command-line header compression tool. The inflatehd
program is a
command-line header decompression tool. Both tools read input from
stdin and write output to stdout. Errors are written to stderr.
They take JSON as input and output. We (mostly) use the same JSON data
format described at https://github.com/http2jp/hpack-test-case.
The deflatehd
program reads JSON data or HTTP/1-style header fields from
stdin and outputs compressed header block in JSON.
For the JSON input, the root JSON object must include a 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
appear. Each item in the sequence is a JSON object and it must
include a headers
key. Its value is an array of JSON objects,
which includes exactly one name/value pair.
Example:
{
"cases":
[
{
"headers": [
{ ":method": "GET" },
{ ":path": "/" }
]
},
{
"headers": [
{ ":method": "POST" },
{ ":path": "/" }
]
}
]
}
With the -t
option, the program can accept more familiar HTTP/1 style
header field blocks. Each header set is delimited by an empty line:
Example:
:method: GET :scheme: https :path: / :method: POST user-agent: nghttp2
The output is in JSON object. It should include a cases
key and its
value is an array of JSON objects, which has at least the following keys:
- seq
- The index of header set in the input.
- input_length
- The sum of the length of the name/value pairs in the input.
- output_length
- The length of the compressed header block.
- percentage_of_original_size
input_length
/output_length
* 100- wire
- The compressed header block as a hex string.
- headers
- The input header set.
- header_table_size
- The header table size adjusted before deflating the header set.
Examples:
{
"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 the -d
option, the extra header_table
key is added and its
associated value includes the state of dynamic header table after the
corresponding header set was processed. The value includes at least
the following keys:
- entries
- The entry in the header table. If
referenced
istrue
, it is in the reference set. Thesize
includes the overhead (32 bytes). Theindex
corresponds to the index of header table. Thename
is the header field name and thevalue
is the header field value. - size
- The sum of the spaces entries occupied, this includes the entry overhead.
- max_size
- The maximum header table size.
- deflate_size
- The sum of the spaces entries occupied within
max_deflate_size
. - max_deflate_size
- The maximum header table size the encoder uses. This can be smaller
than
max_size
. In this case, the encoder only uses up to firstmax_deflate_size
buffer. Since the header table size is stillmax_size
, the encoder has to keep track of entries outside themax_deflate_size
but inside themax_size
and make sure that they are no longer referenced.
Example:
{
"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
}
}
]
}
The inflatehd
program reads JSON data from stdin and outputs decompressed
name/value pairs in JSON.
The root JSON object must include the cases
key. Its value has to
include the sequence of compressed header blocks. They share the same
compression context and are processed in the order they appear. Each
item in the sequence is a JSON object and it must have at least a
wire
key. Its value is a compressed header block as a hex string.
Example:
{
"cases":
[
{ "wire": "8285" },
{ "wire": "8583" }
]
}
The output is a JSON object. It should include a cases
key and its
value is an array of JSON objects, which has at least following keys:
- seq
- The index of the header set in the input.
- headers
- A JSON array that includes decompressed name/value pairs.
- wire
- The compressed header block as a hex string.
- header_table_size
- The header table size adjusted before inflating compressed header block.
Example:
{
"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 the -d
option, the extra header_table
key is added and its
associated value includes the state of the dynamic header table after the
corresponding header set was processed. The format is the same as
deflatehd
.
libnghttp2_asio is C++ library built on top of libnghttp2 and provides high level abstraction API to build HTTP/2 applications. It depends on the Boost::ASIO library and OpenSSL. Currently libnghttp2_asio provides both client and server APIs.
libnghttp2_asio is not built by default. Use the --enable-asio-lib
configure flag to build libnghttp2_asio. The required Boost libraries
are:
- Boost::Asio
- Boost::System
- Boost::Thread
The server API is designed to build an HTTP/2 server very easily to utilize C++11 anonymous functions and closures. The bare minimum example of an HTTP/2 server looks like this:
#include <iostream>
#include <nghttp2/asio_http2_server.h>
using namespace nghttp2::asio_http2;
using namespace nghttp2::asio_http2::server;
int main(int argc, char *argv[]) {
boost::system::error_code ec;
http2 server;
server.handle("/", [](const request &req, const response &res) {
res.write_head(200);
res.end("hello, world\n");
});
if (server.listen_and_serve(ec, "localhost", "3000")) {
std::cerr << "error: " << ec.message() << std::endl;
}
}
Here is sample code to use the client API:
#include <iostream>
#include <nghttp2/asio_http2_client.h>
using boost::asio::ip::tcp;
using namespace nghttp2::asio_http2;
using namespace nghttp2::asio_http2::client;
int main(int argc, char *argv[]) {
boost::system::error_code ec;
boost::asio::io_service io_service;
// connect to localhost:3000
session sess(io_service, "localhost", "3000");
sess.on_connect([&sess](tcp::resolver::iterator endpoint_it) {
boost::system::error_code ec;
auto req = sess.submit(ec, "GET", "http://localhost:3000/");
req->on_response([](const response &res) {
// print status code and response header fields.
std::cerr << "HTTP/2 " << res.status_code() << std::endl;
for (auto &kv : res.header()) {
std::cerr << kv.first << ": " << kv.second.value << "\n";
}
std::cerr << std::endl;
res.on_data([](const uint8_t *data, std::size_t len) {
std::cerr.write(reinterpret_cast<const char *>(data), len);
std::cerr << std::endl;
});
});
req->on_close([&sess](uint32_t error_code) {
// shutdown session after first request was done.
sess.shutdown();
});
});
sess.on_error([](const boost::system::error_code &ec) {
std::cerr << "error: " << ec.message() << std::endl;
});
io_service.run();
}
For more details, see the documentation of libnghttp2_asio.
The python
directory contains nghttp2 Python bindings. The
bindings currently provide HPACK compressor and decompressor classes
and an HTTP/2 server.
The extension module is called nghttp2
.
make
will build the bindings and target Python version is
determined by the configure
script. If the detected Python version is not
what you expect, specify a path to Python executable in a PYTHON
variable as an argument to configure script (e.g., ./configure
PYTHON=/usr/bin/python3.4
).
The following example code illustrates basic usage of the HPACK compressor and decompressor in Python:
import binascii
import nghttp2
deflater = nghttp2.HDDeflater()
inflater = nghttp2.HDInflater()
data = deflater.deflate([(b'foo', b'bar'),
(b'baz', b'buz')])
print(binascii.b2a_hex(data))
hdrs = inflater.inflate(data)
print(hdrs)
The nghttp2.HTTP2Server
class builds on top of the asyncio event
loop. On construction, RequestHandlerClass must be given, which
must be a subclass of nghttp2.BaseRequestHandler
class.
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.
The first callback method invoked is on_headers()
. It is called
when HEADERS frame, which includes the request header fields, has arrived.
If the request has a request body, on_data(data)
is invoked for each
chunk of received data.
Once the entire request is received, on_request_done()
is invoked.
When the stream is closed, on_close(error_code)
is called.
The application can send a response using send_response()
method.
It can be used in on_headers()
, on_data()
or
on_request_done()
.
The application can push resources using the push()
method. It must be
used before the 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.
- scheme
- Scheme of the request URI. This is a value of :scheme header field.
- method
- Method of this stream. This is a value of :method header field.
- 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:
#!/usr/bin/env python
import io, ssl
import nghttp2
class Handler(nghttp2.BaseRequestHandler):
def on_headers(self):
self.push(path='/css/bootstrap.css',
request_headers = [('content-length', '3')],
status=200,
body='foo')
self.push(path='/js/bootstrap.js',
method='GET',
request_headers = [('content-length', '10')],
status=200,
body='foobarbuzz')
self.send_response(status=200,
headers = [('content-type', 'text/plain')],
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()
[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, 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 (or your employer, as the case may be) agree to assign the copyright of your submission to us. .. the above really needs to be reworded to pass legal muster. 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!
See Contribution Guidelines for more details.