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README.md
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README.md
@ -59,6 +59,37 @@ and tls connection. [rfc section 3.4](https://http2.github.io/http2-spec/#rfc.se
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[tls example](https://github.com/actix/actix-web/tree/master/examples/tls)
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## Benchmarks
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This is totally unscientific and probably pretty useless. In real world business
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logic would dominate on performance side. But in any case. i took several web frameworks
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for rust and used theirs *hello world* example. All projects are compiled with
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`--release` parameter. I didnt test single thread performance for iron and rocket.
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As a testing tool i used `wrk` and following commands
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`wrk -t20 -c100 -d10s http://127.0.0.1:8080/`
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`wrk -t20 -c100 -d10s http://127.0.0.1:8080/ -s ./pipeline.lua --latency -- / 128`
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I ran all tests on localhost on MacBook Pro late 2017. It has 4 cpu and 8 logical cpus.
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Each result is best of five runs. All measurements are req/sec.
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Name | 1 thread | 1 pipeline | 3 thread | 3 pipeline | 8 thread | 8 pipeline |
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--- | --- | --- | --- | --- | --- |
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Actix | 81400 | 710200 | 121000 | 1684000 | 106300 | 2206000 |
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Gotham | 61000 | 178000 | | | | |
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Iron | | | | | 94500 | 78000 |
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Rocket | | | | | 95500 | failed |
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Shio | 71800 | 317800 | | | | |
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tokio-minihttp | 106900 | 1047000 | | | | |
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Some notes on results. Iron and Rocket got tested with 8 threads,
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which showed best results. Gothan and tokio-minihttp seem does not support
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multithreading, or at least i couldn't figured out. I manually enabled pipelining
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for *Shio* and Gotham*. While shio seems support multithreading, but it showed
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absolutly same results for any how number of threads (maybe macos?)
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Rocket completely failed in pipelined tests.
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## Examples
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* [Basic](https://github.com/actix/actix-web/tree/master/examples/basic.rs)
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@ -1,4 +1,4 @@
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# Quickstart
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# Quick start
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Before you can start writing a actix web application, you’ll need a version of Rust installed.
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We recommend you use rustup to install or configure such a version.
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@ -6,7 +6,7 @@ websocket protcol handling, multipart streams, etc.
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All actix web server is built around `Application` instance.
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It is used for registering routes for resources, middlewares.
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Also it stores application specific state that is shared accross all handlers
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Also it stores application specific state that is shared across all handlers
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within same application.
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Application acts as namespace for all routes, i.e all routes for specific application
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@ -5,7 +5,7 @@
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Http server automatically starts number of http workers, by default
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this number is equal to number of logical cpu in the system. This number
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could be overriden with `HttpServer::threads()` method.
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could be overridden with `HttpServer::threads()` method.
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```rust
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# extern crate actix_web;
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@ -53,7 +53,7 @@ fn main() {
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}
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```
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Note on *HTTP/2.0* protocol over tls without prior knowlage, it requires
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Note on *HTTP/2.0* protocol over tls without prior knowledge, it requires
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[tls alpn](https://tools.ietf.org/html/rfc7301). At the moment only
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`openssl` has `alpn ` support.
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@ -62,7 +62,7 @@ for concrete example.
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## Keep-Alive
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Actix can wait for requesta on a keep-alive connection. *Keep alive*
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Actix can wait for requests on a keep-alive connection. *Keep alive*
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connection behavior is defined by server settings.
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* `Some(75)` - enable 75 sec *keep alive* timer according request and response settings.
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@ -41,9 +41,8 @@ fn index(req: HttpRequest) -> Box<Future<Item=HttpResponse, Error=Error>> {
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## Response with custom type
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To return custom type directly from handler function `FromResponse` trait should be
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implemented for this type. Let's create response for custom type that
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serializes to `application/json` response:
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To return custom type directly from handler function type needs to implement `Responder` trait.
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Let's create response for custom type that serializes to `application/json` response:
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```rust
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# extern crate actix;
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