- Formatters: BERT, JSON — changeable on the fly
- Protocols: N2O, NITRO, SPA, FTP
- Endpoints: WebSocket, HTTP, REST
- High Performance Protocol Relay
- Smallest possible codebase — 1K LOC
- BEAM/LING support on posix, arm, mips and xen platforms
- Single-file atomic packaging with MAD
- Handlers
- PubSub: MQS, GPROC
- Templates: DTL, NITRO
- Sessions: server driven
- DOM Language: SHEN JavaScript Compiler
- Error Logging: IO, LOGGER
- Security: PLAIN, AES CBC 128
- Speed: 30K conn/s at notebook easily
- Samples: Skyline (DSL), Games (SPA), Review (KVS), Sample (MAD)
N2O comes with BERT message formatter support out of the box, and you only need one N2O dependency in this case. Should you need DTL templates, JSON message formatter, SHEN JavaScript Compiler or NITRO Nitrogen DSL you can plug all of them in separately:
{n2o, ".*",{git,"git://github.com/synrc/n2o", {tag, "2.8"}}},
{nitro, ".*",{git,"git://github.com/synrc/nitro", {tag, "2.8"}}},
{shen, ".*",{git,"git://github.com/synrc/shen", {tag, "1.5"}}},
{jsone, ".*",{git,"git://github.com/sile/jsone.git", {tag,"v0.3.3"}}},
{erlydtl,".*",{git,"git://github.com/evanmiller/erlydtl",{tag,"0.8.0"}}},You can use any message formmatter at the bottom of N2O protocol. IO messages supported by the N2O protocol are as follows:
1. BERT : {io,"console.log('hello')",1}
2. WAMP : [io,"console.log('hello')",1]
3. JSON : {name:io,eval:"console.log('hello')",data:1}
4. TEXT : IO console.log('hello') 1\n
5. XML : <io><eval>console.log('hello')</eval><data>1</data></io>
Besides, you can even switch a channel termination formatter on the fly within one WebSocket session.
-module(index).
-compile(export_all).
-include_lib("nitro/include/nitro.hrl").
-include_lib("n2o/include/wf.hrl").
peer() -> io_lib:format("~p",[wf:peer(?REQ)]).
message() -> wf:js_escape(wf:html_encode(wf:q(message))).
main() -> #dtl{file="index",app=n2o_sample,bindings=[{body,body()}]}.
body() ->
{Pid,_} = wf:async(fun(X) -> chat_loop(X) end),
[ #panel{id=history}, #textbox{id=message},
#button{id=send,body="Chat",postback={chat,Pid},source=[message]} ].
event(init) -> wf:reg(room);
event({chat,Pid}) -> Pid ! {peer(), message()};
event(Event) -> skip.
chat_loop({Peer, Message} ) ->
wf:insert_bottom(history,#panel{body=[Peer,": ",Message,#br{}]}),
wf:flush(room) end.ab, httperf, wrk and siege are all used for measuring performance. The most valuable request hell is created by wrk and even though it is not achievable in real apps, it can demonstrate internal throughput of certain individual components.
The nearest to real life apps is siege which also performs a DNS lookup for each request. The data below shows internal data throughput by wrk:
| Framework | Enabled Components | Speed | Timeouts |
|---|---|---|---|
| PHP5 FCGI | Simple script with two | 5K | timeouts |
| ChicagoBoss | No sessions, No DSL, Simple DTL | 500 | no |
| Nitrogen | No sessions, No DSL, Simple DTL | 1K | no |
| N2O | All enabled, sessions, Template, heavy DSL | 7K | no |
| N2O | Sessions enabled, template with two variables, no DSL | 10K | no |
| N2O | No sessions, No DSL, only template with two vars | 15K | no |
To try N2O you need to clone a N2O repo from Github and build it. We use a very small and powerful tool called mad designed specially for our Web Stack.
$ git clone git://github.com/synrc/n2o
$ cd n2o/samples
$ ./mad deps compile plan repl
Now you can try it out: http://localhost:8000
LINUX NOTE: if you want to have online recompilation you should install inotify-tools first:
$ sudo apt-get install inotify-tools
$ cd tests
$ npm install -g casperjs
$ casperjs test casper
We don't accept any reports of problems related to ESL or Ubuntu packaging. We only support Erlang built from sources, official Windows package, built with kerl or installed on Mac with homebrew. If you have any problems with your favourite Erlang package for your OS, please report issues to package maintainer.
Thank you for using N2O (you've made a wise choice) and your contributions to help make it better. Before posting an issue on Github, please contact us via the options listed below in the support section. Doing so will help us determine whether your issue is a suggested feature, refactor of existing code, bug, etc, that needs to be posted to GitHub for the contributing development community of N2O to incorporate. DO NOT post issues to GitHub related to misuses of N2O, all such issues will be closed.
- IRC Channel #n2o on FreeNode 24/7
If you are new or you need to decide whether the N2O architecture and philosophy is a fit for your project
- Official N2O Book PDF
For windows you should install http://msys2.github.io and appropriative packages to use Synrc Stack:
- pacman -S git
- Maxim Sokhatsky — core, shen, windows
- Dmitry Bushmelev — endpoints, yaws, cowboy
- Andrii Zadorozhnii — elements, actions, handlers
- Vladimir Kirillov — mac, bsd, xen, linux support
- Andrey Martemyanov — binary protocols
- Oleksandr Nikitin — security
- Anton Logvinenko — doc
- Roman Shestakov — advanced elements, ct
- Jesse Gumm — nitrogen, help
- Rusty Klophaus — original author
OM A HUM