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Nikolay Kim 2019-03-26 11:54:35 -07:00
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environment:
global:
PROJECT_NAME: actix-http
matrix:
# Stable channel
- TARGET: i686-pc-windows-msvc
CHANNEL: stable
- TARGET: x86_64-pc-windows-gnu
CHANNEL: stable
- TARGET: x86_64-pc-windows-msvc
CHANNEL: stable
# Nightly channel
- TARGET: i686-pc-windows-msvc
CHANNEL: nightly
- TARGET: x86_64-pc-windows-gnu
CHANNEL: nightly
- TARGET: x86_64-pc-windows-msvc
CHANNEL: nightly
# Install Rust and Cargo
# (Based on from https://github.com/rust-lang/libc/blob/master/appveyor.yml)
install:
- ps: >-
If ($Env:TARGET -eq 'x86_64-pc-windows-gnu') {
$Env:PATH += ';C:\msys64\mingw64\bin'
} ElseIf ($Env:TARGET -eq 'i686-pc-windows-gnu') {
$Env:PATH += ';C:\MinGW\bin'
}
- curl -sSf -o rustup-init.exe https://win.rustup.rs
- rustup-init.exe --default-host %TARGET% --default-toolchain %CHANNEL% -y
- set PATH=%PATH%;C:\Users\appveyor\.cargo\bin
- rustc -Vv
- cargo -V
# 'cargo test' takes care of building for us, so disable Appveyor's build stage.
build: false
# Equivalent to Travis' `script` phase
test_script:
- cargo clean
- cargo test

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Cargo.lock
target/
guide/build/
/gh-pages
*.so
*.out
*.pyc
*.pid
*.sock
*~
# These are backup files generated by rustfmt
**/*.rs.bk

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language: rust
sudo: required
dist: trusty
cache:
cargo: true
apt: true
matrix:
include:
- rust: stable
- rust: beta
- rust: nightly-2019-03-02
allow_failures:
- rust: nightly-2019-03-02
env:
global:
- RUSTFLAGS="-C link-dead-code"
- OPENSSL_VERSION=openssl-1.0.2
before_install:
- sudo add-apt-repository -y ppa:0k53d-karl-f830m/openssl
- sudo apt-get update -qq
- sudo apt-get install -y openssl libssl-dev libelf-dev libdw-dev cmake gcc binutils-dev libiberty-dev
before_cache: |
if [[ "$TRAVIS_RUST_VERSION" == "nightly-2019-03-02" ]]; then
RUSTFLAGS="--cfg procmacro2_semver_exempt" cargo install cargo-tarpaulin
fi
script:
- cargo clean
- cargo build --all-features
- cargo test --all-features
# Upload docs
after_success:
- |
if [[ "$TRAVIS_OS_NAME" == "linux" && "$TRAVIS_PULL_REQUEST" = "false" && "$TRAVIS_BRANCH" == "master" && "$TRAVIS_RUST_VERSION" == "stable" ]]; then
cargo doc --no-deps &&
echo "<meta http-equiv=refresh content=0;url=os_balloon/index.html>" > target/doc/index.html &&
git clone https://github.com/davisp/ghp-import.git &&
./ghp-import/ghp_import.py -n -p -f -m "Documentation upload" -r https://"$GH_TOKEN"@github.com/"$TRAVIS_REPO_SLUG.git" target/doc &&
echo "Uploaded documentation"
fi
- |
if [[ "$TRAVIS_RUST_VERSION" == "nightly-2019-03-02" ]]; then
taskset -c 0 cargo tarpaulin --features="ssl" --out Xml
bash <(curl -s https://codecov.io/bash)
echo "Uploaded code coverage"
fi

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# Changes
## [0.1.0] - 2019-01-x
* Initial impl

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# Contributor Covenant Code of Conduct
## Our Pledge
In the interest of fostering an open and welcoming environment, we as contributors and maintainers pledge to making participation in our project and our community a harassment-free experience for everyone, regardless of age, body size, disability, ethnicity, gender identity and expression, level of experience, nationality, personal appearance, race, religion, or sexual identity and orientation.
## Our Standards
Examples of behavior that contributes to creating a positive environment include:
* Using welcoming and inclusive language
* Being respectful of differing viewpoints and experiences
* Gracefully accepting constructive criticism
* Focusing on what is best for the community
* Showing empathy towards other community members
Examples of unacceptable behavior by participants include:
* The use of sexualized language or imagery and unwelcome sexual attention or advances
* Trolling, insulting/derogatory comments, and personal or political attacks
* Public or private harassment
* Publishing others' private information, such as a physical or electronic address, without explicit permission
* Other conduct which could reasonably be considered inappropriate in a professional setting
## Our Responsibilities
Project maintainers are responsible for clarifying the standards of acceptable behavior and are expected to take appropriate and fair corrective action in response to any instances of unacceptable behavior.
Project maintainers have the right and responsibility to remove, edit, or reject comments, commits, code, wiki edits, issues, and other contributions that are not aligned to this Code of Conduct, or to ban temporarily or permanently any contributor for other behaviors that they deem inappropriate, threatening, offensive, or harmful.
## Scope
This Code of Conduct applies both within project spaces and in public spaces when an individual is representing the project or its community. Examples of representing a project or community include using an official project e-mail address, posting via an official social media account, or acting as an appointed representative at an online or offline event. Representation of a project may be further defined and clarified by project maintainers.
## Enforcement
Instances of abusive, harassing, or otherwise unacceptable behavior may be reported by contacting the project team at fafhrd91@gmail.com. The project team will review and investigate all complaints, and will respond in a way that it deems appropriate to the circumstances. The project team is obligated to maintain confidentiality with regard to the reporter of an incident. Further details of specific enforcement policies may be posted separately.
Project maintainers who do not follow or enforce the Code of Conduct in good faith may face temporary or permanent repercussions as determined by other members of the project's leadership.
## Attribution
This Code of Conduct is adapted from the [Contributor Covenant][homepage], version 1.4, available at [http://contributor-covenant.org/version/1/4][version]
[homepage]: http://contributor-covenant.org
[version]: http://contributor-covenant.org/version/1/4/

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[package]
name = "actix-http"
version = "0.1.0"
authors = ["Nikolay Kim <fafhrd91@gmail.com>"]
description = "Actix http"
readme = "README.md"
keywords = ["http", "web", "framework", "async", "futures"]
homepage = "https://actix.rs"
repository = "https://github.com/actix/actix-http.git"
documentation = "https://docs.rs/actix-http/"
categories = ["network-programming", "asynchronous",
"web-programming::http-server",
"web-programming::websocket"]
license = "MIT/Apache-2.0"
exclude = [".gitignore", ".travis.yml", ".cargo/config", "appveyor.yml"]
edition = "2018"
[package.metadata.docs.rs]
features = ["ssl", "fail", "cookie"]
[badges]
travis-ci = { repository = "actix/actix-http", branch = "master" }
# appveyor = { repository = "fafhrd91/actix-http-b1qsn" }
codecov = { repository = "actix/actix-http", branch = "master", service = "github" }
[lib]
name = "actix_http"
path = "src/lib.rs"
[features]
default = []
# openssl
ssl = ["openssl", "actix-connect/ssl"]
# cookies integration
cookies = ["cookie"]
# failure integration. actix does not use failure anymore
fail = ["failure"]
[dependencies]
actix-service = "0.3.4"
actix-codec = "0.1.1"
actix-connect = "0.1.0"
actix-utils = "0.3.4"
actix-server-config = "0.1.0"
base64 = "0.10"
backtrace = "0.3"
bitflags = "1.0"
bytes = "0.4"
byteorder = "1.2"
derive_more = "0.14"
encoding = "0.2"
futures = "0.1"
hashbrown = "0.1.8"
h2 = "0.1.16"
http = "0.1.16"
httparse = "1.3"
indexmap = "1.0"
lazy_static = "1.0"
language-tags = "0.2"
log = "0.4"
mime = "0.3"
percent-encoding = "1.0"
rand = "0.6"
regex = "1.0"
serde = "1.0"
serde_json = "1.0"
sha1 = "0.6"
slab = "0.4"
serde_urlencoded = "0.5.3"
time = "0.1"
tokio-tcp = "0.1.3"
tokio-timer = "0.2"
tokio-current-thread = "0.1"
trust-dns-resolver = { version="0.11.0-alpha.2", default-features = false }
# optional deps
cookie = { version="0.11", features=["percent-encode"], optional = true }
failure = { version = "0.1.5", optional = true }
openssl = { version="0.10", optional = true }
[dev-dependencies]
actix-rt = "0.2.1"
actix-server = { version = "0.4.0", features=["ssl"] }
actix-connect = { version = "0.1.0", features=["ssl"] }
actix-http-test = { path="test-server", features=["ssl"] }
env_logger = "0.6"
serde_derive = "1.0"
openssl = { version="0.10" }
tokio-tcp = "0.1"

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Copyright (c) 2017 Nikolay Kim
Permission is hereby granted, free of charge, to any
person obtaining a copy of this software and associated
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The above copyright notice and this permission notice
shall be included in all copies or substantial portions
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF
ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED
TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A
PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT
SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR
IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
DEALINGS IN THE SOFTWARE.

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# Actix http [![Build Status](https://travis-ci.org/actix/actix-http.svg?branch=master)](https://travis-ci.org/actix/actix-http) [![codecov](https://codecov.io/gh/actix/actix-http/branch/master/graph/badge.svg)](https://codecov.io/gh/actix/actix-http) [![crates.io](https://meritbadge.herokuapp.com/actix-web)](https://crates.io/crates/actix-web) [![Join the chat at https://gitter.im/actix/actix](https://badges.gitter.im/actix/actix.svg)](https://gitter.im/actix/actix?utm_source=badge&utm_medium=badge&utm_campaign=pr-badge&utm_content=badge)
Actix http
## Documentation & community resources
* [User Guide](https://actix.rs/docs/)
* [API Documentation](https://docs.rs/actix-http/)
* [Chat on gitter](https://gitter.im/actix/actix)
* Cargo package: [actix-http](https://crates.io/crates/actix-http)
* Minimum supported Rust version: 1.26 or later
## Example
```rust
// see examples/framed_hello.rs for complete list of used crates.
extern crate actix_http;
use actix_http::{h1, Response, ServiceConfig};
fn main() {
Server::new().bind("framed_hello", "127.0.0.1:8080", || {
IntoFramed::new(|| h1::Codec::new(ServiceConfig::default())) // <- create h1 codec
.and_then(TakeItem::new().map_err(|_| ())) // <- read one request
.and_then(|(_req, _framed): (_, Framed<_, _>)| { // <- send response and close conn
SendResponse::send(_framed, Response::Ok().body("Hello world!"))
.map_err(|_| ())
.map(|_| ())
})
}).unwrap().run();
}
```
## License
This project is licensed under either of
* Apache License, Version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or [http://www.apache.org/licenses/LICENSE-2.0](http://www.apache.org/licenses/LICENSE-2.0))
* MIT license ([LICENSE-MIT](LICENSE-MIT) or [http://opensource.org/licenses/MIT](http://opensource.org/licenses/MIT))
at your option.
## Code of Conduct
Contribution to the actix-http crate is organized under the terms of the
Contributor Covenant, the maintainer of actix-http, @fafhrd91, promises to
intervene to uphold that code of conduct.

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use actix_http::{client, Error};
use actix_rt::System;
use bytes::BytesMut;
use futures::{future::lazy, Future, Stream};
fn main() -> Result<(), Error> {
std::env::set_var("RUST_LOG", "actix_http=trace");
env_logger::init();
System::new("test").block_on(lazy(|| {
let mut connector = client::Connector::new().service();
client::ClientRequest::get("https://www.rust-lang.org/") // <- Create request builder
.header("User-Agent", "Actix-web")
.finish()
.unwrap()
.send(&mut connector) // <- Send http request
.from_err()
.and_then(|response| {
// <- server http response
println!("Response: {:?}", response);
// read response body
response
.from_err()
.fold(BytesMut::new(), move |mut acc, chunk| {
acc.extend_from_slice(&chunk);
Ok::<_, Error>(acc)
})
.map(|body| println!("Downloaded: {:?} bytes", body.len()))
})
}))
}

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use std::{env, io};
use actix_http::{error::PayloadError, HttpService, Request, Response};
use actix_server::Server;
use bytes::BytesMut;
use futures::{Future, Stream};
use http::header::HeaderValue;
use log::info;
fn main() -> io::Result<()> {
env::set_var("RUST_LOG", "echo=info");
env_logger::init();
Server::build()
.bind("echo", "127.0.0.1:8080", || {
HttpService::build()
.client_timeout(1000)
.client_disconnect(1000)
.finish(|mut req: Request| {
req.take_payload()
.fold(BytesMut::new(), move |mut body, chunk| {
body.extend_from_slice(&chunk);
Ok::<_, PayloadError>(body)
})
.and_then(|bytes| {
info!("request body: {:?}", bytes);
let mut res = Response::Ok();
res.header(
"x-head",
HeaderValue::from_static("dummy value!"),
);
Ok(res.body(bytes))
})
})
})?
.run()
}

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use std::{env, io};
use actix_http::http::HeaderValue;
use actix_http::{error::PayloadError, Error, HttpService, Request, Response};
use actix_server::Server;
use bytes::BytesMut;
use futures::{Future, Stream};
use log::info;
fn handle_request(mut req: Request) -> impl Future<Item = Response, Error = Error> {
req.take_payload()
.fold(BytesMut::new(), move |mut body, chunk| {
body.extend_from_slice(&chunk);
Ok::<_, PayloadError>(body)
})
.from_err()
.and_then(|bytes| {
info!("request body: {:?}", bytes);
let mut res = Response::Ok();
res.header("x-head", HeaderValue::from_static("dummy value!"));
Ok(res.body(bytes))
})
}
fn main() -> io::Result<()> {
env::set_var("RUST_LOG", "echo=info");
env_logger::init();
Server::build()
.bind("echo", "127.0.0.1:8080", || {
HttpService::build().finish(|_req: Request| handle_request(_req))
})?
.run()
}

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use std::{env, io};
use actix_codec::Framed;
use actix_http::{h1, Response, SendResponse, ServiceConfig};
use actix_server::{Io, Server};
use actix_service::{fn_service, NewService};
use actix_utils::framed::IntoFramed;
use actix_utils::stream::TakeItem;
use futures::Future;
use tokio_tcp::TcpStream;
fn main() -> io::Result<()> {
env::set_var("RUST_LOG", "framed_hello=info");
env_logger::init();
Server::build()
.bind("framed_hello", "127.0.0.1:8080", || {
fn_service(|io: Io<TcpStream>| Ok(io.into_parts().0))
.and_then(IntoFramed::new(|| h1::Codec::new(ServiceConfig::default())))
.and_then(TakeItem::new().map_err(|_| ()))
.and_then(|(_req, _framed): (_, Framed<_, _>)| {
SendResponse::send(_framed, Response::Ok().body("Hello world!"))
.map_err(|_| ())
.map(|_| ())
})
})?
.run()
}

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use std::{env, io};
use actix_http::{HttpService, Response};
use actix_server::Server;
use futures::future;
use http::header::HeaderValue;
use log::info;
fn main() -> io::Result<()> {
env::set_var("RUST_LOG", "hello_world=info");
env_logger::init();
Server::build()
.bind("hello-world", "127.0.0.1:8080", || {
HttpService::build()
.client_timeout(1000)
.client_disconnect(1000)
.finish(|_req| {
info!("{:?}", _req);
let mut res = Response::Ok();
res.header("x-head", HeaderValue::from_static("dummy value!"));
future::ok::<_, ()>(res.body("Hello world!"))
})
})?
.run()
}

5
actix-http/rustfmt.toml Normal file
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max_width = 89
reorder_imports = true
#wrap_comments = true
#fn_args_density = "Compressed"
#use_small_heuristics = false

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use std::marker::PhantomData;
use std::{fmt, mem};
use bytes::{Bytes, BytesMut};
use futures::{Async, Poll, Stream};
use crate::error::Error;
#[derive(Debug, PartialEq, Copy, Clone)]
/// Different type of body
pub enum BodyLength {
None,
Empty,
Sized(usize),
Sized64(u64),
Stream,
}
impl BodyLength {
pub fn is_eof(&self) -> bool {
match self {
BodyLength::None
| BodyLength::Empty
| BodyLength::Sized(0)
| BodyLength::Sized64(0) => true,
_ => false,
}
}
}
/// Type that provides this trait can be streamed to a peer.
pub trait MessageBody {
fn length(&self) -> BodyLength;
fn poll_next(&mut self) -> Poll<Option<Bytes>, Error>;
}
impl MessageBody for () {
fn length(&self) -> BodyLength {
BodyLength::Empty
}
fn poll_next(&mut self) -> Poll<Option<Bytes>, Error> {
Ok(Async::Ready(None))
}
}
impl<T: MessageBody> MessageBody for Box<T> {
fn length(&self) -> BodyLength {
self.as_ref().length()
}
fn poll_next(&mut self) -> Poll<Option<Bytes>, Error> {
self.as_mut().poll_next()
}
}
pub enum ResponseBody<B> {
Body(B),
Other(Body),
}
impl ResponseBody<Body> {
pub fn into_body<B>(self) -> ResponseBody<B> {
match self {
ResponseBody::Body(b) => ResponseBody::Other(b),
ResponseBody::Other(b) => ResponseBody::Other(b),
}
}
}
impl<B> ResponseBody<B> {
pub fn take_body(&mut self) -> ResponseBody<B> {
std::mem::replace(self, ResponseBody::Other(Body::None))
}
}
impl<B: MessageBody> ResponseBody<B> {
pub fn as_ref(&self) -> Option<&B> {
if let ResponseBody::Body(ref b) = self {
Some(b)
} else {
None
}
}
}
impl<B: MessageBody> MessageBody for ResponseBody<B> {
fn length(&self) -> BodyLength {
match self {
ResponseBody::Body(ref body) => body.length(),
ResponseBody::Other(ref body) => body.length(),
}
}
fn poll_next(&mut self) -> Poll<Option<Bytes>, Error> {
match self {
ResponseBody::Body(ref mut body) => body.poll_next(),
ResponseBody::Other(ref mut body) => body.poll_next(),
}
}
}
impl<B: MessageBody> Stream for ResponseBody<B> {
type Item = Bytes;
type Error = Error;
fn poll(&mut self) -> Poll<Option<Self::Item>, Self::Error> {
self.poll_next()
}
}
/// Represents various types of http message body.
pub enum Body {
/// Empty response. `Content-Length` header is not set.
None,
/// Zero sized response body. `Content-Length` header is set to `0`.
Empty,
/// Specific response body.
Bytes(Bytes),
/// Generic message body.
Message(Box<dyn MessageBody>),
}
impl Body {
/// Create body from slice (copy)
pub fn from_slice(s: &[u8]) -> Body {
Body::Bytes(Bytes::from(s))
}
/// Create body from generic message body.
pub fn from_message<B: MessageBody + 'static>(body: B) -> Body {
Body::Message(Box::new(body))
}
}
impl MessageBody for Body {
fn length(&self) -> BodyLength {
match self {
Body::None => BodyLength::None,
Body::Empty => BodyLength::Empty,
Body::Bytes(ref bin) => BodyLength::Sized(bin.len()),
Body::Message(ref body) => body.length(),
}
}
fn poll_next(&mut self) -> Poll<Option<Bytes>, Error> {
match self {
Body::None => Ok(Async::Ready(None)),
Body::Empty => Ok(Async::Ready(None)),
Body::Bytes(ref mut bin) => {
let len = bin.len();
if len == 0 {
Ok(Async::Ready(None))
} else {
Ok(Async::Ready(Some(bin.split_to(len))))
}
}
Body::Message(ref mut body) => body.poll_next(),
}
}
}
impl PartialEq for Body {
fn eq(&self, other: &Body) -> bool {
match *self {
Body::None => match *other {
Body::None => true,
_ => false,
},
Body::Empty => match *other {
Body::Empty => true,
_ => false,
},
Body::Bytes(ref b) => match *other {
Body::Bytes(ref b2) => b == b2,
_ => false,
},
Body::Message(_) => false,
}
}
}
impl fmt::Debug for Body {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
Body::None => write!(f, "Body::None"),
Body::Empty => write!(f, "Body::Zero"),
Body::Bytes(ref b) => write!(f, "Body::Bytes({:?})", b),
Body::Message(_) => write!(f, "Body::Message(_)"),
}
}
}
impl From<&'static str> for Body {
fn from(s: &'static str) -> Body {
Body::Bytes(Bytes::from_static(s.as_ref()))
}
}
impl From<&'static [u8]> for Body {
fn from(s: &'static [u8]) -> Body {
Body::Bytes(Bytes::from_static(s))
}
}
impl From<Vec<u8>> for Body {
fn from(vec: Vec<u8>) -> Body {
Body::Bytes(Bytes::from(vec))
}
}
impl From<String> for Body {
fn from(s: String) -> Body {
s.into_bytes().into()
}
}
impl<'a> From<&'a String> for Body {
fn from(s: &'a String) -> Body {
Body::Bytes(Bytes::from(AsRef::<[u8]>::as_ref(&s)))
}
}
impl From<Bytes> for Body {
fn from(s: Bytes) -> Body {
Body::Bytes(s)
}
}
impl From<BytesMut> for Body {
fn from(s: BytesMut) -> Body {
Body::Bytes(s.freeze())
}
}
impl MessageBody for Bytes {
fn length(&self) -> BodyLength {
BodyLength::Sized(self.len())
}
fn poll_next(&mut self) -> Poll<Option<Bytes>, Error> {
if self.is_empty() {
Ok(Async::Ready(None))
} else {
Ok(Async::Ready(Some(mem::replace(self, Bytes::new()))))
}
}
}
impl MessageBody for BytesMut {
fn length(&self) -> BodyLength {
BodyLength::Sized(self.len())
}
fn poll_next(&mut self) -> Poll<Option<Bytes>, Error> {
if self.is_empty() {
Ok(Async::Ready(None))
} else {
Ok(Async::Ready(Some(
mem::replace(self, BytesMut::new()).freeze(),
)))
}
}
}
impl MessageBody for &'static str {
fn length(&self) -> BodyLength {
BodyLength::Sized(self.len())
}
fn poll_next(&mut self) -> Poll<Option<Bytes>, Error> {
if self.is_empty() {
Ok(Async::Ready(None))
} else {
Ok(Async::Ready(Some(Bytes::from_static(
mem::replace(self, "").as_ref(),
))))
}
}
}
impl MessageBody for &'static [u8] {
fn length(&self) -> BodyLength {
BodyLength::Sized(self.len())
}
fn poll_next(&mut self) -> Poll<Option<Bytes>, Error> {
if self.is_empty() {
Ok(Async::Ready(None))
} else {
Ok(Async::Ready(Some(Bytes::from_static(mem::replace(
self, b"",
)))))
}
}
}
impl MessageBody for Vec<u8> {
fn length(&self) -> BodyLength {
BodyLength::Sized(self.len())
}
fn poll_next(&mut self) -> Poll<Option<Bytes>, Error> {
if self.is_empty() {
Ok(Async::Ready(None))
} else {
Ok(Async::Ready(Some(Bytes::from(mem::replace(
self,
Vec::new(),
)))))
}
}
}
impl MessageBody for String {
fn length(&self) -> BodyLength {
BodyLength::Sized(self.len())
}
fn poll_next(&mut self) -> Poll<Option<Bytes>, Error> {
if self.is_empty() {
Ok(Async::Ready(None))
} else {
Ok(Async::Ready(Some(Bytes::from(
mem::replace(self, String::new()).into_bytes(),
))))
}
}
}
/// Type represent streaming body.
/// Response does not contain `content-length` header and appropriate transfer encoding is used.
pub struct BodyStream<S, E> {
stream: S,
_t: PhantomData<E>,
}
impl<S, E> BodyStream<S, E>
where
S: Stream<Item = Bytes, Error = E>,
E: Into<Error>,
{
pub fn new(stream: S) -> Self {
BodyStream {
stream,
_t: PhantomData,
}
}
}
impl<S, E> MessageBody for BodyStream<S, E>
where
S: Stream<Item = Bytes, Error = E>,
E: Into<Error>,
{
fn length(&self) -> BodyLength {
BodyLength::Stream
}
fn poll_next(&mut self) -> Poll<Option<Bytes>, Error> {
self.stream.poll().map_err(|e| e.into())
}
}
/// Type represent streaming body. This body implementation should be used
/// if total size of stream is known. Data get sent as is without using transfer encoding.
pub struct SizedStream<S> {
size: usize,
stream: S,
}
impl<S> SizedStream<S>
where
S: Stream<Item = Bytes, Error = Error>,
{
pub fn new(size: usize, stream: S) -> Self {
SizedStream { size, stream }
}
}
impl<S> MessageBody for SizedStream<S>
where
S: Stream<Item = Bytes, Error = Error>,
{
fn length(&self) -> BodyLength {
BodyLength::Sized(self.size)
}
fn poll_next(&mut self) -> Poll<Option<Bytes>, Error> {
self.stream.poll()
}
}
#[cfg(test)]
mod tests {
use super::*;
impl Body {
pub(crate) fn get_ref(&self) -> &[u8] {
match *self {
Body::Bytes(ref bin) => &bin,
_ => panic!(),
}
}
}
impl ResponseBody<Body> {
pub(crate) fn get_ref(&self) -> &[u8] {
match *self {
ResponseBody::Body(ref b) => b.get_ref(),
ResponseBody::Other(ref b) => b.get_ref(),
}
}
}
#[test]
fn test_static_str() {
assert_eq!(Body::from("").length(), BodyLength::Sized(0));
assert_eq!(Body::from("test").length(), BodyLength::Sized(4));
assert_eq!(Body::from("test").get_ref(), b"test");
}
#[test]
fn test_static_bytes() {
assert_eq!(Body::from(b"test".as_ref()).length(), BodyLength::Sized(4));
assert_eq!(Body::from(b"test".as_ref()).get_ref(), b"test");
assert_eq!(
Body::from_slice(b"test".as_ref()).length(),
BodyLength::Sized(4)
);
assert_eq!(Body::from_slice(b"test".as_ref()).get_ref(), b"test");
}
#[test]
fn test_vec() {
assert_eq!(Body::from(Vec::from("test")).length(), BodyLength::Sized(4));
assert_eq!(Body::from(Vec::from("test")).get_ref(), b"test");
}
#[test]
fn test_bytes() {
assert_eq!(
Body::from(Bytes::from("test")).length(),
BodyLength::Sized(4)
);
assert_eq!(Body::from(Bytes::from("test")).get_ref(), b"test");
}
#[test]
fn test_string() {
let b = "test".to_owned();
assert_eq!(Body::from(b.clone()).length(), BodyLength::Sized(4));
assert_eq!(Body::from(b.clone()).get_ref(), b"test");
assert_eq!(Body::from(&b).length(), BodyLength::Sized(4));
assert_eq!(Body::from(&b).get_ref(), b"test");
}
#[test]
fn test_bytes_mut() {
let b = BytesMut::from("test");
assert_eq!(Body::from(b.clone()).length(), BodyLength::Sized(4));
assert_eq!(Body::from(b).get_ref(), b"test");
}
}

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use std::fmt::Debug;
use std::marker::PhantomData;
use actix_server_config::ServerConfig as SrvConfig;
use actix_service::{IntoNewService, NewService};
use crate::body::MessageBody;
use crate::config::{KeepAlive, ServiceConfig};
use crate::request::Request;
use crate::response::Response;
use crate::h1::H1Service;
use crate::h2::H2Service;
use crate::service::HttpService;
/// A http service builder
///
/// This type can be used to construct an instance of `http service` through a
/// builder-like pattern.
pub struct HttpServiceBuilder<T, S> {
keep_alive: KeepAlive,
client_timeout: u64,
client_disconnect: u64,
_t: PhantomData<(T, S)>,
}
impl<T, S> HttpServiceBuilder<T, S>
where
S: NewService<SrvConfig, Request = Request>,
S::Error: Debug + 'static,
S::Service: 'static,
{
/// Create instance of `ServiceConfigBuilder`
pub fn new() -> HttpServiceBuilder<T, S> {
HttpServiceBuilder {
keep_alive: KeepAlive::Timeout(5),
client_timeout: 5000,
client_disconnect: 0,
_t: PhantomData,
}
}
/// Set server keep-alive setting.
///
/// By default keep alive is set to a 5 seconds.
pub fn keep_alive<U: Into<KeepAlive>>(mut self, val: U) -> Self {
self.keep_alive = val.into();
self
}
/// Set server client timeout in milliseconds for first request.
///
/// Defines a timeout for reading client request header. If a client does not transmit
/// the entire set headers within this time, the request is terminated with
/// the 408 (Request Time-out) error.
///
/// To disable timeout set value to 0.
///
/// By default client timeout is set to 5000 milliseconds.
pub fn client_timeout(mut self, val: u64) -> Self {
self.client_timeout = val;
self
}
/// Set server connection disconnect timeout in milliseconds.
///
/// Defines a timeout for disconnect connection. If a disconnect procedure does not complete
/// within this time, the request get dropped. This timeout affects secure connections.
///
/// To disable timeout set value to 0.
///
/// By default disconnect timeout is set to 0.
pub fn client_disconnect(mut self, val: u64) -> Self {
self.client_disconnect = val;
self
}
// #[cfg(feature = "ssl")]
// /// Configure alpn protocols for SslAcceptorBuilder.
// pub fn configure_openssl(
// builder: &mut openssl::ssl::SslAcceptorBuilder,
// ) -> io::Result<()> {
// let protos: &[u8] = b"\x02h2";
// builder.set_alpn_select_callback(|_, protos| {
// const H2: &[u8] = b"\x02h2";
// if protos.windows(3).any(|window| window == H2) {
// Ok(b"h2")
// } else {
// Err(openssl::ssl::AlpnError::NOACK)
// }
// });
// builder.set_alpn_protos(&protos)?;
// Ok(())
// }
/// Finish service configuration and create *http service* for HTTP/1 protocol.
pub fn h1<F, P, B>(self, service: F) -> H1Service<T, P, S, B>
where
B: MessageBody + 'static,
F: IntoNewService<S, SrvConfig>,
S::Response: Into<Response<B>>,
{
let cfg = ServiceConfig::new(
self.keep_alive,
self.client_timeout,
self.client_disconnect,
);
H1Service::with_config(cfg, service.into_new_service())
}
/// Finish service configuration and create *http service* for HTTP/2 protocol.
pub fn h2<F, P, B>(self, service: F) -> H2Service<T, P, S, B>
where
B: MessageBody + 'static,
F: IntoNewService<S, SrvConfig>,
S::Response: Into<Response<B>>,
{
let cfg = ServiceConfig::new(
self.keep_alive,
self.client_timeout,
self.client_disconnect,
);
H2Service::with_config(cfg, service.into_new_service())
}
/// Finish service configuration and create `HttpService` instance.
pub fn finish<F, P, B>(self, service: F) -> HttpService<T, P, S, B>
where
B: MessageBody + 'static,
F: IntoNewService<S, SrvConfig>,
S::Response: Into<Response<B>>,
{
let cfg = ServiceConfig::new(
self.keep_alive,
self.client_timeout,
self.client_disconnect,
);
HttpService::with_config(cfg, service.into_new_service())
}
}

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use std::{fmt, time};
use actix_codec::{AsyncRead, AsyncWrite};
use bytes::Bytes;
use futures::Future;
use h2::client::SendRequest;
use crate::body::MessageBody;
use crate::message::{RequestHead, ResponseHead};
use crate::payload::Payload;
use super::error::SendRequestError;
use super::pool::Acquired;
use super::{h1proto, h2proto};
pub(crate) enum ConnectionType<Io> {
H1(Io),
H2(SendRequest<Bytes>),
}
pub trait Connection {
type Future: Future<Item = (ResponseHead, Payload), Error = SendRequestError>;
/// Send request and body
fn send_request<B: MessageBody + 'static>(
self,
head: RequestHead,
body: B,
) -> Self::Future;
}
pub(crate) trait ConnectionLifetime: AsyncRead + AsyncWrite + 'static {
/// Close connection
fn close(&mut self);
/// Release connection to the connection pool
fn release(&mut self);
}
#[doc(hidden)]
/// HTTP client connection
pub struct IoConnection<T> {
io: Option<ConnectionType<T>>,
created: time::Instant,
pool: Option<Acquired<T>>,
}
impl<T> fmt::Debug for IoConnection<T>
where
T: fmt::Debug,
{
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match self.io {
Some(ConnectionType::H1(ref io)) => write!(f, "H1Connection({:?})", io),
Some(ConnectionType::H2(_)) => write!(f, "H2Connection"),
None => write!(f, "Connection(Empty)"),
}
}
}
impl<T: AsyncRead + AsyncWrite + 'static> IoConnection<T> {
pub(crate) fn new(
io: ConnectionType<T>,
created: time::Instant,
pool: Option<Acquired<T>>,
) -> Self {
IoConnection {
pool,
created,
io: Some(io),
}
}
pub(crate) fn into_inner(self) -> (ConnectionType<T>, time::Instant) {
(self.io.unwrap(), self.created)
}
}
impl<T> Connection for IoConnection<T>
where
T: AsyncRead + AsyncWrite + 'static,
{
type Future = Box<Future<Item = (ResponseHead, Payload), Error = SendRequestError>>;
fn send_request<B: MessageBody + 'static>(
mut self,
head: RequestHead,
body: B,
) -> Self::Future {
match self.io.take().unwrap() {
ConnectionType::H1(io) => Box::new(h1proto::send_request(
io,
head,
body,
self.created,
self.pool,
)),
ConnectionType::H2(io) => Box::new(h2proto::send_request(
io,
head,
body,
self.created,
self.pool,
)),
}
}
}
#[allow(dead_code)]
pub(crate) enum EitherConnection<A, B> {
A(IoConnection<A>),
B(IoConnection<B>),
}
impl<A, B> Connection for EitherConnection<A, B>
where
A: AsyncRead + AsyncWrite + 'static,
B: AsyncRead + AsyncWrite + 'static,
{
type Future = Box<Future<Item = (ResponseHead, Payload), Error = SendRequestError>>;
fn send_request<RB: MessageBody + 'static>(
self,
head: RequestHead,
body: RB,
) -> Self::Future {
match self {
EitherConnection::A(con) => con.send_request(head, body),
EitherConnection::B(con) => con.send_request(head, body),
}
}
}

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use std::fmt;
use std::marker::PhantomData;
use std::time::Duration;
use actix_codec::{AsyncRead, AsyncWrite};
use actix_connect::{
default_connector, Connect as TcpConnect, Connection as TcpConnection,
};
use actix_service::{apply_fn, Service, ServiceExt};
use actix_utils::timeout::{TimeoutError, TimeoutService};
use http::Uri;
use tokio_tcp::TcpStream;
use super::connection::Connection;
use super::error::ConnectError;
use super::pool::{ConnectionPool, Protocol};
#[cfg(feature = "ssl")]
use openssl::ssl::SslConnector;
#[cfg(not(feature = "ssl"))]
type SslConnector = ();
/// Http client connector builde instance.
/// `Connector` type uses builder-like pattern for connector service construction.
pub struct Connector<T, U> {
connector: T,
timeout: Duration,
conn_lifetime: Duration,
conn_keep_alive: Duration,
disconnect_timeout: Duration,
limit: usize,
#[allow(dead_code)]
ssl: SslConnector,
_t: PhantomData<U>,
}
impl Connector<(), ()> {
pub fn new() -> Connector<
impl Service<
Request = TcpConnect<Uri>,
Response = TcpConnection<Uri, TcpStream>,
Error = actix_connect::ConnectError,
> + Clone,
TcpStream,
> {
let ssl = {
#[cfg(feature = "ssl")]
{
use log::error;
use openssl::ssl::{SslConnector, SslMethod};
let mut ssl = SslConnector::builder(SslMethod::tls()).unwrap();
let _ = ssl
.set_alpn_protos(b"\x02h2\x08http/1.1")
.map_err(|e| error!("Can not set alpn protocol: {:?}", e));
ssl.build()
}
#[cfg(not(feature = "ssl"))]
{}
};
Connector {
ssl,
connector: default_connector(),
timeout: Duration::from_secs(1),
conn_lifetime: Duration::from_secs(75),
conn_keep_alive: Duration::from_secs(15),
disconnect_timeout: Duration::from_millis(3000),
limit: 100,
_t: PhantomData,
}
}
}
impl<T, U> Connector<T, U> {
/// Use custom connector.
pub fn connector<T1, U1>(self, connector: T1) -> Connector<T1, U1>
where
U1: AsyncRead + AsyncWrite + fmt::Debug,
T1: Service<
Request = TcpConnect<Uri>,
Response = TcpConnection<Uri, U1>,
Error = actix_connect::ConnectError,
> + Clone,
{
Connector {
connector,
timeout: self.timeout,
conn_lifetime: self.conn_lifetime,
conn_keep_alive: self.conn_keep_alive,
disconnect_timeout: self.disconnect_timeout,
limit: self.limit,
ssl: self.ssl,
_t: PhantomData,
}
}
}
impl<T, U> Connector<T, U>
where
U: AsyncRead + AsyncWrite + fmt::Debug + 'static,
T: Service<
Request = TcpConnect<Uri>,
Response = TcpConnection<Uri, U>,
Error = actix_connect::ConnectError,
> + Clone,
{
/// Connection timeout, i.e. max time to connect to remote host including dns name resolution.
/// Set to 1 second by default.
pub fn timeout(mut self, timeout: Duration) -> Self {
self.timeout = timeout;
self
}
#[cfg(feature = "ssl")]
/// Use custom `SslConnector` instance.
pub fn ssl(mut self, connector: SslConnector) -> Self {
self.ssl = connector;
self
}
/// Set total number of simultaneous connections per type of scheme.
///
/// If limit is 0, the connector has no limit.
/// The default limit size is 100.
pub fn limit(mut self, limit: usize) -> Self {
self.limit = limit;
self
}
/// Set keep-alive period for opened connection.
///
/// Keep-alive period is the period between connection usage. If
/// the delay between repeated usages of the same connection
/// exceeds this period, the connection is closed.
/// Default keep-alive period is 15 seconds.
pub fn conn_keep_alive(mut self, dur: Duration) -> Self {
self.conn_keep_alive = dur;
self
}
/// Set max lifetime period for connection.
///
/// Connection lifetime is max lifetime of any opened connection
/// until it is closed regardless of keep-alive period.
/// Default lifetime period is 75 seconds.
pub fn conn_lifetime(mut self, dur: Duration) -> Self {
self.conn_lifetime = dur;
self
}
/// Set server connection disconnect timeout in milliseconds.
///
/// Defines a timeout for disconnect connection. If a disconnect procedure does not complete
/// within this time, the socket get dropped. This timeout affects only secure connections.
///
/// To disable timeout set value to 0.
///
/// By default disconnect timeout is set to 3000 milliseconds.
pub fn disconnect_timeout(mut self, dur: Duration) -> Self {
self.disconnect_timeout = dur;
self
}
/// Finish configuration process and create connector service.
pub fn service(
self,
) -> impl Service<Request = Uri, Response = impl Connection, Error = ConnectError> + Clone
{
#[cfg(not(feature = "ssl"))]
{
let connector = TimeoutService::new(
self.timeout,
apply_fn(self.connector, |msg: Uri, srv| srv.call(msg.into()))
.map_err(ConnectError::from)
.map(|stream| (stream.into_parts().0, Protocol::Http1)),
)
.map_err(|e| match e {
TimeoutError::Service(e) => e,
TimeoutError::Timeout => ConnectError::Timeout,
});
connect_impl::InnerConnector {
tcp_pool: ConnectionPool::new(
connector,
self.conn_lifetime,
self.conn_keep_alive,
None,
self.limit,
),
}
}
#[cfg(feature = "ssl")]
{
const H2: &[u8] = b"h2";
use actix_connect::ssl::OpensslConnector;
let ssl_service = TimeoutService::new(
self.timeout,
apply_fn(self.connector.clone(), |msg: Uri, srv| srv.call(msg.into()))
.map_err(ConnectError::from)
.and_then(
OpensslConnector::service(self.ssl)
.map_err(ConnectError::from)
.map(|stream| {
let sock = stream.into_parts().0;
let h2 = sock
.get_ref()
.ssl()
.selected_alpn_protocol()
.map(|protos| protos.windows(2).any(|w| w == H2))
.unwrap_or(false);
if h2 {
(sock, Protocol::Http2)
} else {
(sock, Protocol::Http1)
}
}),
),
)
.map_err(|e| match e {
TimeoutError::Service(e) => e,
TimeoutError::Timeout => ConnectError::Timeout,
});
let tcp_service = TimeoutService::new(
self.timeout,
apply_fn(self.connector.clone(), |msg: Uri, srv| srv.call(msg.into()))
.map_err(ConnectError::from)
.map(|stream| (stream.into_parts().0, Protocol::Http1)),
)
.map_err(|e| match e {
TimeoutError::Service(e) => e,
TimeoutError::Timeout => ConnectError::Timeout,
});
connect_impl::InnerConnector {
tcp_pool: ConnectionPool::new(
tcp_service,
self.conn_lifetime,
self.conn_keep_alive,
None,
self.limit,
),
ssl_pool: ConnectionPool::new(
ssl_service,
self.conn_lifetime,
self.conn_keep_alive,
Some(self.disconnect_timeout),
self.limit,
),
}
}
}
}
#[cfg(not(feature = "ssl"))]
mod connect_impl {
use futures::future::{err, Either, FutureResult};
use futures::Poll;
use super::*;
use crate::client::connection::IoConnection;
pub(crate) struct InnerConnector<T, Io>
where
Io: AsyncRead + AsyncWrite + 'static,
T: Service<Request = Uri, Response = (Io, Protocol), Error = ConnectError>,
{
pub(crate) tcp_pool: ConnectionPool<T, Io>,
}
impl<T, Io> Clone for InnerConnector<T, Io>
where
Io: AsyncRead + AsyncWrite + 'static,
T: Service<Request = Uri, Response = (Io, Protocol), Error = ConnectError>
+ Clone,
{
fn clone(&self) -> Self {
InnerConnector {
tcp_pool: self.tcp_pool.clone(),
}
}
}
impl<T, Io> Service for InnerConnector<T, Io>
where
Io: AsyncRead + AsyncWrite + 'static,
T: Service<Request = Uri, Response = (Io, Protocol), Error = ConnectError>,
{
type Request = Uri;
type Response = IoConnection<Io>;
type Error = ConnectError;
type Future = Either<
<ConnectionPool<T, Io> as Service>::Future,
FutureResult<IoConnection<Io>, ConnectError>,
>;
fn poll_ready(&mut self) -> Poll<(), Self::Error> {
self.tcp_pool.poll_ready()
}
fn call(&mut self, req: Uri) -> Self::Future {
match req.scheme_str() {
Some("https") | Some("wss") => {
Either::B(err(ConnectError::SslIsNotSupported))
}
_ => Either::A(self.tcp_pool.call(req)),
}
}
}
}
#[cfg(feature = "ssl")]
mod connect_impl {
use std::marker::PhantomData;
use futures::future::{Either, FutureResult};
use futures::{Async, Future, Poll};
use super::*;
use crate::client::connection::EitherConnection;
pub(crate) struct InnerConnector<T1, T2, Io1, Io2>
where
Io1: AsyncRead + AsyncWrite + 'static,
Io2: AsyncRead + AsyncWrite + 'static,
T1: Service<Request = Uri, Response = (Io1, Protocol), Error = ConnectError>,
T2: Service<Request = Uri, Response = (Io2, Protocol), Error = ConnectError>,
{
pub(crate) tcp_pool: ConnectionPool<T1, Io1>,
pub(crate) ssl_pool: ConnectionPool<T2, Io2>,
}
impl<T1, T2, Io1, Io2> Clone for InnerConnector<T1, T2, Io1, Io2>
where
Io1: AsyncRead + AsyncWrite + 'static,
Io2: AsyncRead + AsyncWrite + 'static,
T1: Service<Request = Uri, Response = (Io1, Protocol), Error = ConnectError>
+ Clone,
T2: Service<Request = Uri, Response = (Io2, Protocol), Error = ConnectError>
+ Clone,
{
fn clone(&self) -> Self {
InnerConnector {
tcp_pool: self.tcp_pool.clone(),
ssl_pool: self.ssl_pool.clone(),
}
}
}
impl<T1, T2, Io1, Io2> Service for InnerConnector<T1, T2, Io1, Io2>
where
Io1: AsyncRead + AsyncWrite + 'static,
Io2: AsyncRead + AsyncWrite + 'static,
T1: Service<Request = Uri, Response = (Io1, Protocol), Error = ConnectError>,
T2: Service<Request = Uri, Response = (Io2, Protocol), Error = ConnectError>,
{
type Request = Uri;
type Response = EitherConnection<Io1, Io2>;
type Error = ConnectError;
type Future = Either<
FutureResult<Self::Response, Self::Error>,
Either<
InnerConnectorResponseA<T1, Io1, Io2>,
InnerConnectorResponseB<T2, Io1, Io2>,
>,
>;
fn poll_ready(&mut self) -> Poll<(), Self::Error> {
self.tcp_pool.poll_ready()
}
fn call(&mut self, req: Uri) -> Self::Future {
match req.scheme_str() {
Some("https") | Some("wss") => {
Either::B(Either::B(InnerConnectorResponseB {
fut: self.ssl_pool.call(req),
_t: PhantomData,
}))
}
_ => Either::B(Either::A(InnerConnectorResponseA {
fut: self.tcp_pool.call(req),
_t: PhantomData,
})),
}
}
}
pub(crate) struct InnerConnectorResponseA<T, Io1, Io2>
where
Io1: AsyncRead + AsyncWrite + 'static,
T: Service<Request = Uri, Response = (Io1, Protocol), Error = ConnectError>,
{
fut: <ConnectionPool<T, Io1> as Service>::Future,
_t: PhantomData<Io2>,
}
impl<T, Io1, Io2> Future for InnerConnectorResponseA<T, Io1, Io2>
where
T: Service<Request = Uri, Response = (Io1, Protocol), Error = ConnectError>,
Io1: AsyncRead + AsyncWrite + 'static,
Io2: AsyncRead + AsyncWrite + 'static,
{
type Item = EitherConnection<Io1, Io2>;
type Error = ConnectError;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
match self.fut.poll()? {
Async::NotReady => Ok(Async::NotReady),
Async::Ready(res) => Ok(Async::Ready(EitherConnection::A(res))),
}
}
}
pub(crate) struct InnerConnectorResponseB<T, Io1, Io2>
where
Io2: AsyncRead + AsyncWrite + 'static,
T: Service<Request = Uri, Response = (Io2, Protocol), Error = ConnectError>,
{
fut: <ConnectionPool<T, Io2> as Service>::Future,
_t: PhantomData<Io1>,
}
impl<T, Io1, Io2> Future for InnerConnectorResponseB<T, Io1, Io2>
where
T: Service<Request = Uri, Response = (Io2, Protocol), Error = ConnectError>,
Io1: AsyncRead + AsyncWrite + 'static,
Io2: AsyncRead + AsyncWrite + 'static,
{
type Item = EitherConnection<Io1, Io2>;
type Error = ConnectError;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
match self.fut.poll()? {
Async::NotReady => Ok(Async::NotReady),
Async::Ready(res) => Ok(Async::Ready(EitherConnection::B(res))),
}
}
}
}

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actix-http/src/client/error.rs Normal file
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use std::io;
use derive_more::{Display, From};
use trust_dns_resolver::error::ResolveError;
#[cfg(feature = "ssl")]
use openssl::ssl::{Error as SslError, HandshakeError};
use crate::error::{Error, ParseError, ResponseError};
use crate::http::Error as HttpError;
use crate::response::Response;
/// A set of errors that can occur while connecting to an HTTP host
#[derive(Debug, Display, From)]
pub enum ConnectError {
/// SSL feature is not enabled
#[display(fmt = "SSL is not supported")]
SslIsNotSupported,
/// SSL error
#[cfg(feature = "ssl")]
#[display(fmt = "{}", _0)]
SslError(SslError),
/// Failed to resolve the hostname
#[display(fmt = "Failed resolving hostname: {}", _0)]
Resolver(ResolveError),
/// No dns records
#[display(fmt = "No dns records found for the input")]
NoRecords,
/// Http2 error
#[display(fmt = "{}", _0)]
H2(h2::Error),
/// Connecting took too long
#[display(fmt = "Timeout out while establishing connection")]
Timeout,
/// Connector has been disconnected
#[display(fmt = "Internal error: connector has been disconnected")]
Disconnected,
/// Unresolved host name
#[display(fmt = "Connector received `Connect` method with unresolved host")]
Unresolverd,
/// Connection io error
#[display(fmt = "{}", _0)]
Io(io::Error),
}
impl From<actix_connect::ConnectError> for ConnectError {
fn from(err: actix_connect::ConnectError) -> ConnectError {
match err {
actix_connect::ConnectError::Resolver(e) => ConnectError::Resolver(e),
actix_connect::ConnectError::NoRecords => ConnectError::NoRecords,
actix_connect::ConnectError::InvalidInput => panic!(),
actix_connect::ConnectError::Unresolverd => ConnectError::Unresolverd,
actix_connect::ConnectError::Io(e) => ConnectError::Io(e),
}
}
}
#[cfg(feature = "ssl")]
impl<T> From<HandshakeError<T>> for ConnectError {
fn from(err: HandshakeError<T>) -> ConnectError {
match err {
HandshakeError::SetupFailure(stack) => SslError::from(stack).into(),
HandshakeError::Failure(stream) => stream.into_error().into(),
HandshakeError::WouldBlock(stream) => stream.into_error().into(),
}
}
}
#[derive(Debug, Display, From)]
pub enum InvalidUrl {
#[display(fmt = "Missing url scheme")]
MissingScheme,
#[display(fmt = "Unknown url scheme")]
UnknownScheme,
#[display(fmt = "Missing host name")]
MissingHost,
#[display(fmt = "Url parse error: {}", _0)]
HttpError(http::Error),
}
/// A set of errors that can occur during request sending and response reading
#[derive(Debug, Display, From)]
pub enum SendRequestError {
/// Invalid URL
#[display(fmt = "Invalid URL: {}", _0)]
Url(InvalidUrl),
/// Failed to connect to host
#[display(fmt = "Failed to connect to host: {}", _0)]
Connect(ConnectError),
/// Error sending request
Send(io::Error),
/// Error parsing response
Response(ParseError),
/// Http error
#[display(fmt = "{}", _0)]
Http(HttpError),
/// Http2 error
#[display(fmt = "{}", _0)]
H2(h2::Error),
/// Error sending request body
Body(Error),
}
/// Convert `SendRequestError` to a server `Response`
impl ResponseError for SendRequestError {
fn error_response(&self) -> Response {
match *self {
SendRequestError::Connect(ConnectError::Timeout) => {
Response::GatewayTimeout()
}
SendRequestError::Connect(_) => Response::BadGateway(),
_ => Response::InternalServerError(),
}
.into()
}
}

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actix-http/src/client/h1proto.rs Normal file
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use std::{io, time};
use actix_codec::{AsyncRead, AsyncWrite, Framed};
use bytes::Bytes;
use futures::future::{ok, Either};
use futures::{Async, Future, Poll, Sink, Stream};
use crate::error::PayloadError;
use crate::h1;
use crate::message::{RequestHead, ResponseHead};
use crate::payload::{Payload, PayloadStream};
use super::connection::{ConnectionLifetime, ConnectionType, IoConnection};
use super::error::{ConnectError, SendRequestError};
use super::pool::Acquired;
use crate::body::{BodyLength, MessageBody};
pub(crate) fn send_request<T, B>(
io: T,
head: RequestHead,
body: B,
created: time::Instant,
pool: Option<Acquired<T>>,
) -> impl Future<Item = (ResponseHead, Payload), Error = SendRequestError>
where
T: AsyncRead + AsyncWrite + 'static,
B: MessageBody,
{
let io = H1Connection {
created,
pool,
io: Some(io),
};
let len = body.length();
// create Framed and send reqest
Framed::new(io, h1::ClientCodec::default())
.send((head, len).into())
.from_err()
// send request body
.and_then(move |framed| match body.length() {
BodyLength::None | BodyLength::Empty | BodyLength::Sized(0) => {
Either::A(ok(framed))
}
_ => Either::B(SendBody::new(body, framed)),
})
// read response and init read body
.and_then(|framed| {
framed
.into_future()
.map_err(|(e, _)| SendRequestError::from(e))
.and_then(|(item, framed)| {
if let Some(res) = item {
match framed.get_codec().message_type() {
h1::MessageType::None => {
let force_close = !framed.get_codec().keepalive();
release_connection(framed, force_close);
Ok((res, Payload::None))
}
_ => {
let pl: PayloadStream = Box::new(PlStream::new(framed));
Ok((res, pl.into()))
}
}
} else {
Err(ConnectError::Disconnected.into())
}
})
})
}
#[doc(hidden)]
/// HTTP client connection
pub struct H1Connection<T> {
io: Option<T>,
created: time::Instant,
pool: Option<Acquired<T>>,
}
impl<T: AsyncRead + AsyncWrite + 'static> ConnectionLifetime for H1Connection<T> {
/// Close connection
fn close(&mut self) {
if let Some(mut pool) = self.pool.take() {
if let Some(io) = self.io.take() {
pool.close(IoConnection::new(
ConnectionType::H1(io),
self.created,
None,
));
}
}
}
/// Release this connection to the connection pool
fn release(&mut self) {
if let Some(mut pool) = self.pool.take() {
if let Some(io) = self.io.take() {
pool.release(IoConnection::new(
ConnectionType::H1(io),
self.created,
None,
));
}
}
}
}
impl<T: AsyncRead + AsyncWrite + 'static> io::Read for H1Connection<T> {
fn read(&mut self, buf: &mut [u8]) -> io::Result<usize> {
self.io.as_mut().unwrap().read(buf)
}
}
impl<T: AsyncRead + AsyncWrite + 'static> AsyncRead for H1Connection<T> {}
impl<T: AsyncRead + AsyncWrite + 'static> io::Write for H1Connection<T> {
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
self.io.as_mut().unwrap().write(buf)
}
fn flush(&mut self) -> io::Result<()> {
self.io.as_mut().unwrap().flush()
}
}
impl<T: AsyncRead + AsyncWrite + 'static> AsyncWrite for H1Connection<T> {
fn shutdown(&mut self) -> Poll<(), io::Error> {
self.io.as_mut().unwrap().shutdown()
}
}
/// Future responsible for sending request body to the peer
pub(crate) struct SendBody<I, B> {
body: Option<B>,
framed: Option<Framed<I, h1::ClientCodec>>,
flushed: bool,
}
impl<I, B> SendBody<I, B>
where
I: AsyncRead + AsyncWrite + 'static,
B: MessageBody,
{
pub(crate) fn new(body: B, framed: Framed<I, h1::ClientCodec>) -> Self {
SendBody {
body: Some(body),
framed: Some(framed),
flushed: true,
}
}
}
impl<I, B> Future for SendBody<I, B>
where
I: ConnectionLifetime,
B: MessageBody,
{
type Item = Framed<I, h1::ClientCodec>;
type Error = SendRequestError;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
let mut body_ready = true;
loop {
while body_ready
&& self.body.is_some()
&& !self.framed.as_ref().unwrap().is_write_buf_full()
{
match self.body.as_mut().unwrap().poll_next()? {
Async::Ready(item) => {
// check if body is done
if item.is_none() {
let _ = self.body.take();
}
self.flushed = false;
self.framed
.as_mut()
.unwrap()
.force_send(h1::Message::Chunk(item))?;
break;
}
Async::NotReady => body_ready = false,
}
}
if !self.flushed {
match self.framed.as_mut().unwrap().poll_complete()? {
Async::Ready(_) => {
self.flushed = true;
continue;
}
Async::NotReady => return Ok(Async::NotReady),
}
}
if self.body.is_none() {
return Ok(Async::Ready(self.framed.take().unwrap()));
}
return Ok(Async::NotReady);
}
}
}
pub(crate) struct PlStream<Io> {
framed: Option<Framed<Io, h1::ClientPayloadCodec>>,
}
impl<Io: ConnectionLifetime> PlStream<Io> {
fn new(framed: Framed<Io, h1::ClientCodec>) -> Self {
PlStream {
framed: Some(framed.map_codec(|codec| codec.into_payload_codec())),
}
}
}
impl<Io: ConnectionLifetime> Stream for PlStream<Io> {
type Item = Bytes;
type Error = PayloadError;
fn poll(&mut self) -> Poll<Option<Self::Item>, Self::Error> {
match self.framed.as_mut().unwrap().poll()? {
Async::NotReady => Ok(Async::NotReady),
Async::Ready(Some(chunk)) => {
if let Some(chunk) = chunk {
Ok(Async::Ready(Some(chunk)))
} else {
let framed = self.framed.take().unwrap();
let force_close = framed.get_codec().keepalive();
release_connection(framed, force_close);
Ok(Async::Ready(None))
}
}
Async::Ready(None) => Ok(Async::Ready(None)),
}
}
}
fn release_connection<T, U>(framed: Framed<T, U>, force_close: bool)
where
T: ConnectionLifetime,
{
let mut parts = framed.into_parts();
if !force_close && parts.read_buf.is_empty() && parts.write_buf.is_empty() {
parts.io.release()
} else {
parts.io.close()
}
}

185
actix-http/src/client/h2proto.rs Normal file
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use std::time;
use actix_codec::{AsyncRead, AsyncWrite};
use bytes::Bytes;
use futures::future::{err, Either};
use futures::{Async, Future, Poll};
use h2::{client::SendRequest, SendStream};
use http::header::{HeaderValue, CONNECTION, CONTENT_LENGTH, TRANSFER_ENCODING};
use http::{request::Request, HttpTryFrom, Method, Version};
use crate::body::{BodyLength, MessageBody};
use crate::message::{RequestHead, ResponseHead};
use crate::payload::Payload;
use super::connection::{ConnectionType, IoConnection};
use super::error::SendRequestError;
use super::pool::Acquired;
pub(crate) fn send_request<T, B>(
io: SendRequest<Bytes>,
head: RequestHead,
body: B,
created: time::Instant,
pool: Option<Acquired<T>>,
) -> impl Future<Item = (ResponseHead, Payload), Error = SendRequestError>
where
T: AsyncRead + AsyncWrite + 'static,
B: MessageBody,
{
trace!("Sending client request: {:?} {:?}", head, body.length());
let head_req = head.method == Method::HEAD;
let length = body.length();
let eof = match length {
BodyLength::None | BodyLength::Empty | BodyLength::Sized(0) => true,
_ => false,
};
io.ready()
.map_err(SendRequestError::from)
.and_then(move |mut io| {
let mut req = Request::new(());
*req.uri_mut() = head.uri;
*req.method_mut() = head.method;
*req.version_mut() = Version::HTTP_2;
let mut skip_len = true;
// let mut has_date = false;
// Content length
let _ = match length {
BodyLength::None => None,
BodyLength::Stream => {
skip_len = false;
None
}
BodyLength::Empty => req
.headers_mut()
.insert(CONTENT_LENGTH, HeaderValue::from_static("0")),
BodyLength::Sized(len) => req.headers_mut().insert(
CONTENT_LENGTH,
HeaderValue::try_from(format!("{}", len)).unwrap(),
),
BodyLength::Sized64(len) => req.headers_mut().insert(
CONTENT_LENGTH,
HeaderValue::try_from(format!("{}", len)).unwrap(),
),
};
// copy headers
for (key, value) in head.headers.iter() {
match *key {
CONNECTION | TRANSFER_ENCODING => continue, // http2 specific
CONTENT_LENGTH if skip_len => continue,
// DATE => has_date = true,
_ => (),
}
req.headers_mut().append(key, value.clone());
}
match io.send_request(req, eof) {
Ok((res, send)) => {
release(io, pool, created, false);
if !eof {
Either::A(Either::B(
SendBody {
body,
send,
buf: None,
}
.and_then(move |_| res.map_err(SendRequestError::from)),
))
} else {
Either::B(res.map_err(SendRequestError::from))
}
}
Err(e) => {
release(io, pool, created, e.is_io());
Either::A(Either::A(err(e.into())))
}
}
})
.and_then(move |resp| {
let (parts, body) = resp.into_parts();
let payload = if head_req { Payload::None } else { body.into() };
let mut head = ResponseHead::default();
head.version = parts.version;
head.status = parts.status;
head.headers = parts.headers;
Ok((head, payload))
})
.from_err()
}
struct SendBody<B: MessageBody> {
body: B,
send: SendStream<Bytes>,
buf: Option<Bytes>,
}
impl<B: MessageBody> Future for SendBody<B> {
type Item = ();
type Error = SendRequestError;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
loop {
if self.buf.is_none() {
match self.body.poll_next() {
Ok(Async::Ready(Some(buf))) => {
self.send.reserve_capacity(buf.len());
self.buf = Some(buf);
}
Ok(Async::Ready(None)) => {
if let Err(e) = self.send.send_data(Bytes::new(), true) {
return Err(e.into());
}
self.send.reserve_capacity(0);
return Ok(Async::Ready(()));
}
Ok(Async::NotReady) => return Ok(Async::NotReady),
Err(e) => return Err(e.into()),
}
}
match self.send.poll_capacity() {
Ok(Async::NotReady) => return Ok(Async::NotReady),
Ok(Async::Ready(None)) => return Ok(Async::Ready(())),
Ok(Async::Ready(Some(cap))) => {
let mut buf = self.buf.take().unwrap();
let len = buf.len();
let bytes = buf.split_to(std::cmp::min(cap, len));
if let Err(e) = self.send.send_data(bytes, false) {
return Err(e.into());
} else {
if !buf.is_empty() {
self.send.reserve_capacity(buf.len());
self.buf = Some(buf);
}
continue;
}
}
Err(e) => return Err(e.into()),
}
}
}
}
// release SendRequest object
fn release<T: AsyncRead + AsyncWrite + 'static>(
io: SendRequest<Bytes>,
pool: Option<Acquired<T>>,
created: time::Instant,
close: bool,
) {
if let Some(mut pool) = pool {
if close {
pool.close(IoConnection::new(ConnectionType::H2(io), created, None));
} else {
pool.release(IoConnection::new(ConnectionType::H2(io), created, None));
}
}
}

11
actix-http/src/client/mod.rs Normal file
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//! Http client api
mod connection;
mod connector;
mod error;
mod h1proto;
mod h2proto;
mod pool;
pub use self::connection::Connection;
pub use self::connector::Connector;
pub use self::error::{ConnectError, InvalidUrl, SendRequestError};

538
actix-http/src/client/pool.rs Normal file
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use std::cell::RefCell;
use std::collections::VecDeque;
use std::io;
use std::rc::Rc;
use std::time::{Duration, Instant};
use actix_codec::{AsyncRead, AsyncWrite};
use actix_service::Service;
use bytes::Bytes;
use futures::future::{err, ok, Either, FutureResult};
use futures::task::AtomicTask;
use futures::unsync::oneshot;
use futures::{Async, Future, Poll};
use h2::client::{handshake, Handshake};
use hashbrown::HashMap;
use http::uri::{Authority, Uri};
use indexmap::IndexSet;
use slab::Slab;
use tokio_timer::{sleep, Delay};
use super::connection::{ConnectionType, IoConnection};
use super::error::ConnectError;
#[derive(Clone, Copy, PartialEq)]
pub enum Protocol {
Http1,
Http2,
}
#[derive(Hash, Eq, PartialEq, Clone, Debug)]
pub(crate) struct Key {
authority: Authority,
}
impl From<Authority> for Key {
fn from(authority: Authority) -> Key {
Key { authority }
}
}
/// Connections pool
pub(crate) struct ConnectionPool<T, Io: AsyncRead + AsyncWrite + 'static>(
T,
Rc<RefCell<Inner<Io>>>,
);
impl<T, Io> ConnectionPool<T, Io>
where
Io: AsyncRead + AsyncWrite + 'static,
T: Service<Request = Uri, Response = (Io, Protocol), Error = ConnectError>,
{
pub(crate) fn new(
connector: T,
conn_lifetime: Duration,
conn_keep_alive: Duration,
disconnect_timeout: Option<Duration>,
limit: usize,
) -> Self {
ConnectionPool(
connector,
Rc::new(RefCell::new(Inner {
conn_lifetime,
conn_keep_alive,
disconnect_timeout,
limit,
acquired: 0,
waiters: Slab::new(),
waiters_queue: IndexSet::new(),
available: HashMap::new(),
task: AtomicTask::new(),
})),
)
}
}
impl<T, Io> Clone for ConnectionPool<T, Io>
where
T: Clone,
Io: AsyncRead + AsyncWrite + 'static,
{
fn clone(&self) -> Self {
ConnectionPool(self.0.clone(), self.1.clone())
}
}
impl<T, Io> Service for ConnectionPool<T, Io>
where
Io: AsyncRead + AsyncWrite + 'static,
T: Service<Request = Uri, Response = (Io, Protocol), Error = ConnectError>,
{
type Request = Uri;
type Response = IoConnection<Io>;
type Error = ConnectError;
type Future = Either<
FutureResult<Self::Response, Self::Error>,
Either<WaitForConnection<Io>, OpenConnection<T::Future, Io>>,
>;
fn poll_ready(&mut self) -> Poll<(), Self::Error> {
self.0.poll_ready()
}
fn call(&mut self, req: Uri) -> Self::Future {
let key = if let Some(authority) = req.authority_part() {
authority.clone().into()
} else {
return Either::A(err(ConnectError::Unresolverd));
};
// acquire connection
match self.1.as_ref().borrow_mut().acquire(&key) {
Acquire::Acquired(io, created) => {
// use existing connection
Either::A(ok(IoConnection::new(
io,
created,
Some(Acquired(key, Some(self.1.clone()))),
)))
}
Acquire::NotAvailable => {
// connection is not available, wait
let (rx, token) = self.1.as_ref().borrow_mut().wait_for(req);
Either::B(Either::A(WaitForConnection {
rx,
key,
token,
inner: Some(self.1.clone()),
}))
}
Acquire::Available => {
// open new connection
Either::B(Either::B(OpenConnection::new(
key,
self.1.clone(),
self.0.call(req),
)))
}
}
}
}
#[doc(hidden)]
pub struct WaitForConnection<Io>
where
Io: AsyncRead + AsyncWrite + 'static,
{
key: Key,
token: usize,
rx: oneshot::Receiver<Result<IoConnection<Io>, ConnectError>>,
inner: Option<Rc<RefCell<Inner<Io>>>>,
}
impl<Io> Drop for WaitForConnection<Io>
where
Io: AsyncRead + AsyncWrite + 'static,
{
fn drop(&mut self) {
if let Some(i) = self.inner.take() {
let mut inner = i.as_ref().borrow_mut();
inner.release_waiter(&self.key, self.token);
inner.check_availibility();
}
}
}
impl<Io> Future for WaitForConnection<Io>
where
Io: AsyncRead + AsyncWrite,
{
type Item = IoConnection<Io>;
type Error = ConnectError;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
match self.rx.poll() {
Ok(Async::Ready(item)) => match item {
Err(err) => Err(err),
Ok(conn) => {
let _ = self.inner.take();
Ok(Async::Ready(conn))
}
},
Ok(Async::NotReady) => Ok(Async::NotReady),
Err(_) => {
let _ = self.inner.take();
Err(ConnectError::Disconnected)
}
}
}
}
#[doc(hidden)]
pub struct OpenConnection<F, Io>
where
Io: AsyncRead + AsyncWrite + 'static,
{
fut: F,
key: Key,
h2: Option<Handshake<Io, Bytes>>,
inner: Option<Rc<RefCell<Inner<Io>>>>,
}
impl<F, Io> OpenConnection<F, Io>
where
F: Future<Item = (Io, Protocol), Error = ConnectError>,
Io: AsyncRead + AsyncWrite + 'static,
{
fn new(key: Key, inner: Rc<RefCell<Inner<Io>>>, fut: F) -> Self {
OpenConnection {
key,
fut,
inner: Some(inner),
h2: None,
}
}
}
impl<F, Io> Drop for OpenConnection<F, Io>
where
Io: AsyncRead + AsyncWrite + 'static,
{
fn drop(&mut self) {
if let Some(inner) = self.inner.take() {
let mut inner = inner.as_ref().borrow_mut();
inner.release();
inner.check_availibility();
}
}
}
impl<F, Io> Future for OpenConnection<F, Io>
where
F: Future<Item = (Io, Protocol), Error = ConnectError>,
Io: AsyncRead + AsyncWrite,
{
type Item = IoConnection<Io>;
type Error = ConnectError;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
if let Some(ref mut h2) = self.h2 {
return match h2.poll() {
Ok(Async::Ready((snd, connection))) => {
tokio_current_thread::spawn(connection.map_err(|_| ()));
Ok(Async::Ready(IoConnection::new(
ConnectionType::H2(snd),
Instant::now(),
Some(Acquired(self.key.clone(), self.inner.clone())),
)))
}
Ok(Async::NotReady) => Ok(Async::NotReady),
Err(e) => Err(e.into()),
};
}
match self.fut.poll() {
Err(err) => Err(err),
Ok(Async::Ready((io, proto))) => {
let _ = self.inner.take();
if proto == Protocol::Http1 {
Ok(Async::Ready(IoConnection::new(
ConnectionType::H1(io),
Instant::now(),
Some(Acquired(self.key.clone(), self.inner.clone())),
)))
} else {
self.h2 = Some(handshake(io));
self.poll()
}
}
Ok(Async::NotReady) => Ok(Async::NotReady),
}
}
}
enum Acquire<T> {
Acquired(ConnectionType<T>, Instant),
Available,
NotAvailable,
}
// #[derive(Debug)]
struct AvailableConnection<Io> {
io: ConnectionType<Io>,
used: Instant,
created: Instant,
}
pub(crate) struct Inner<Io> {
conn_lifetime: Duration,
conn_keep_alive: Duration,
disconnect_timeout: Option<Duration>,
limit: usize,
acquired: usize,
available: HashMap<Key, VecDeque<AvailableConnection<Io>>>,
waiters: Slab<(Uri, oneshot::Sender<Result<IoConnection<Io>, ConnectError>>)>,
waiters_queue: IndexSet<(Key, usize)>,
task: AtomicTask,
}
impl<Io> Inner<Io> {
fn reserve(&mut self) {
self.acquired += 1;
}
fn release(&mut self) {
self.acquired -= 1;
}
fn release_waiter(&mut self, key: &Key, token: usize) {
self.waiters.remove(token);
self.waiters_queue.remove(&(key.clone(), token));
}
fn release_conn(&mut self, key: &Key, io: ConnectionType<Io>, created: Instant) {
self.acquired -= 1;
self.available
.entry(key.clone())
.or_insert_with(VecDeque::new)
.push_back(AvailableConnection {
io,
created,
used: Instant::now(),
});
}
}
impl<Io> Inner<Io>
where
Io: AsyncRead + AsyncWrite + 'static,
{
/// connection is not available, wait
fn wait_for(
&mut self,
connect: Uri,
) -> (
oneshot::Receiver<Result<IoConnection<Io>, ConnectError>>,
usize,
) {
let (tx, rx) = oneshot::channel();
let key: Key = connect.authority_part().unwrap().clone().into();
let entry = self.waiters.vacant_entry();
let token = entry.key();
entry.insert((connect, tx));
assert!(!self.waiters_queue.insert((key, token)));
(rx, token)
}
fn acquire(&mut self, key: &Key) -> Acquire<Io> {
// check limits
if self.limit > 0 && self.acquired >= self.limit {
return Acquire::NotAvailable;
}
self.reserve();
// check if open connection is available
// cleanup stale connections at the same time
if let Some(ref mut connections) = self.available.get_mut(key) {
let now = Instant::now();
while let Some(conn) = connections.pop_back() {
// check if it still usable
if (now - conn.used) > self.conn_keep_alive
|| (now - conn.created) > self.conn_lifetime
{
if let Some(timeout) = self.disconnect_timeout {
if let ConnectionType::H1(io) = conn.io {
tokio_current_thread::spawn(CloseConnection::new(
io, timeout,
))
}
}
} else {
let mut io = conn.io;
let mut buf = [0; 2];
if let ConnectionType::H1(ref mut s) = io {
match s.read(&mut buf) {
Err(ref e) if e.kind() == io::ErrorKind::WouldBlock => (),
Ok(n) if n > 0 => {
if let Some(timeout) = self.disconnect_timeout {
if let ConnectionType::H1(io) = io {
tokio_current_thread::spawn(
CloseConnection::new(io, timeout),
)
}
}
continue;
}
Ok(_) | Err(_) => continue,
}
}
return Acquire::Acquired(io, conn.created);
}
}
}
Acquire::Available
}
fn release_close(&mut self, io: ConnectionType<Io>) {
self.acquired -= 1;
if let Some(timeout) = self.disconnect_timeout {
if let ConnectionType::H1(io) = io {
tokio_current_thread::spawn(CloseConnection::new(io, timeout))
}
}
}
fn check_availibility(&self) {
if !self.waiters_queue.is_empty() && self.acquired < self.limit {
self.task.notify()
}
}
}
// struct ConnectorPoolSupport<T, Io>
// where
// Io: AsyncRead + AsyncWrite + 'static,
// {
// connector: T,
// inner: Rc<RefCell<Inner<Io>>>,
// }
// impl<T, Io> Future for ConnectorPoolSupport<T, Io>
// where
// Io: AsyncRead + AsyncWrite + 'static,
// T: Service<Connect, Response = (Io, Protocol), Error = ConnectorError>,
// T::Future: 'static,
// {
// type Item = ();
// type Error = ();
// fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
// let mut inner = self.inner.as_ref().borrow_mut();
// inner.task.register();
// // check waiters
// loop {
// let (key, token) = {
// if let Some((key, token)) = inner.waiters_queue.get_index(0) {
// (key.clone(), *token)
// } else {
// break;
// }
// };
// match inner.acquire(&key) {
// Acquire::NotAvailable => break,
// Acquire::Acquired(io, created) => {
// let (_, tx) = inner.waiters.remove(token);
// if let Err(conn) = tx.send(Ok(IoConnection::new(
// io,
// created,
// Some(Acquired(key.clone(), Some(self.inner.clone()))),
// ))) {
// let (io, created) = conn.unwrap().into_inner();
// inner.release_conn(&key, io, created);
// }
// }
// Acquire::Available => {
// let (connect, tx) = inner.waiters.remove(token);
// OpenWaitingConnection::spawn(
// key.clone(),
// tx,
// self.inner.clone(),
// self.connector.call(connect),
// );
// }
// }
// let _ = inner.waiters_queue.swap_remove_index(0);
// }
// Ok(Async::NotReady)
// }
// }
struct CloseConnection<T> {
io: T,
timeout: Delay,
}
impl<T> CloseConnection<T>
where
T: AsyncWrite,
{
fn new(io: T, timeout: Duration) -> Self {
CloseConnection {
io,
timeout: sleep(timeout),
}
}
}
impl<T> Future for CloseConnection<T>
where
T: AsyncWrite,
{
type Item = ();
type Error = ();
fn poll(&mut self) -> Poll<(), ()> {
match self.timeout.poll() {
Ok(Async::Ready(_)) | Err(_) => Ok(Async::Ready(())),
Ok(Async::NotReady) => match self.io.shutdown() {
Ok(Async::Ready(_)) | Err(_) => Ok(Async::Ready(())),
Ok(Async::NotReady) => Ok(Async::NotReady),
},
}
}
}
pub(crate) struct Acquired<T>(Key, Option<Rc<RefCell<Inner<T>>>>);
impl<T> Acquired<T>
where
T: AsyncRead + AsyncWrite + 'static,
{
pub(crate) fn close(&mut self, conn: IoConnection<T>) {
if let Some(inner) = self.1.take() {
let (io, _) = conn.into_inner();
inner.as_ref().borrow_mut().release_close(io);
}
}
pub(crate) fn release(&mut self, conn: IoConnection<T>) {
if let Some(inner) = self.1.take() {
let (io, created) = conn.into_inner();
inner
.as_ref()
.borrow_mut()
.release_conn(&self.0, io, created);
}
}
}
impl<T> Drop for Acquired<T> {
fn drop(&mut self) {
if let Some(inner) = self.1.take() {
inner.as_ref().borrow_mut().release();
}
}
}

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use std::cell::UnsafeCell;
use std::fmt;
use std::fmt::Write;
use std::rc::Rc;
use std::time::{Duration, Instant};
use bytes::BytesMut;
use futures::{future, Future};
use time;
use tokio_timer::{sleep, Delay};
// "Sun, 06 Nov 1994 08:49:37 GMT".len()
const DATE_VALUE_LENGTH: usize = 29;
#[derive(Debug, PartialEq, Clone, Copy)]
/// Server keep-alive setting
pub enum KeepAlive {
/// Keep alive in seconds
Timeout(usize),
/// Relay on OS to shutdown tcp connection
Os,
/// Disabled
Disabled,
}
impl From<usize> for KeepAlive {
fn from(keepalive: usize) -> Self {
KeepAlive::Timeout(keepalive)
}
}
impl From<Option<usize>> for KeepAlive {
fn from(keepalive: Option<usize>) -> Self {
if let Some(keepalive) = keepalive {
KeepAlive::Timeout(keepalive)
} else {
KeepAlive::Disabled
}
}
}
/// Http service configuration
pub struct ServiceConfig(Rc<Inner>);
struct Inner {
keep_alive: Option<Duration>,
client_timeout: u64,
client_disconnect: u64,
ka_enabled: bool,
timer: DateService,
}
impl Clone for ServiceConfig {
fn clone(&self) -> Self {
ServiceConfig(self.0.clone())
}
}
impl Default for ServiceConfig {
fn default() -> Self {
Self::new(KeepAlive::Timeout(5), 0, 0)
}
}
impl ServiceConfig {
/// Create instance of `ServiceConfig`
pub fn new(
keep_alive: KeepAlive,
client_timeout: u64,
client_disconnect: u64,
) -> ServiceConfig {
let (keep_alive, ka_enabled) = match keep_alive {
KeepAlive::Timeout(val) => (val as u64, true),
KeepAlive::Os => (0, true),
KeepAlive::Disabled => (0, false),
};
let keep_alive = if ka_enabled && keep_alive > 0 {
Some(Duration::from_secs(keep_alive))
} else {
None
};
ServiceConfig(Rc::new(Inner {
keep_alive,
ka_enabled,
client_timeout,
client_disconnect,
timer: DateService::new(),
}))
}
#[inline]
/// Keep alive duration if configured.
pub fn keep_alive(&self) -> Option<Duration> {
self.0.keep_alive
}
#[inline]
/// Return state of connection keep-alive funcitonality
pub fn keep_alive_enabled(&self) -> bool {
self.0.ka_enabled
}
#[inline]
/// Client timeout for first request.
pub fn client_timer(&self) -> Option<Delay> {
let delay = self.0.client_timeout;
if delay != 0 {
Some(Delay::new(
self.0.timer.now() + Duration::from_millis(delay),
))
} else {
None
}
}
/// Client timeout for first request.
pub fn client_timer_expire(&self) -> Option<Instant> {
let delay = self.0.client_timeout;
if delay != 0 {
Some(self.0.timer.now() + Duration::from_millis(delay))
} else {
None
}
}
/// Client disconnect timer
pub fn client_disconnect_timer(&self) -> Option<Instant> {
let delay = self.0.client_disconnect;
if delay != 0 {
Some(self.0.timer.now() + Duration::from_millis(delay))
} else {
None
}
}
#[inline]
/// Return keep-alive timer delay is configured.
pub fn keep_alive_timer(&self) -> Option<Delay> {
if let Some(ka) = self.0.keep_alive {
Some(Delay::new(self.0.timer.now() + ka))
} else {
None
}
}
/// Keep-alive expire time
pub fn keep_alive_expire(&self) -> Option<Instant> {
if let Some(ka) = self.0.keep_alive {
Some(self.0.timer.now() + ka)
} else {
None
}
}
#[inline]
pub(crate) fn now(&self) -> Instant {
self.0.timer.now()
}
pub(crate) fn set_date(&self, dst: &mut BytesMut) {
let mut buf: [u8; 39] = [0; 39];
buf[..6].copy_from_slice(b"date: ");
buf[6..35].copy_from_slice(&self.0.timer.date().bytes);
buf[35..].copy_from_slice(b"\r\n\r\n");
dst.extend_from_slice(&buf);
}
pub(crate) fn set_date_header(&self, dst: &mut BytesMut) {
dst.extend_from_slice(&self.0.timer.date().bytes);
}
}
struct Date {
bytes: [u8; DATE_VALUE_LENGTH],
pos: usize,
}
impl Date {
fn new() -> Date {
let mut date = Date {
bytes: [0; DATE_VALUE_LENGTH],
pos: 0,
};
date.update();
date
}
fn update(&mut self) {
self.pos = 0;
write!(self, "{}", time::at_utc(time::get_time()).rfc822()).unwrap();
}
}
impl fmt::Write for Date {
fn write_str(&mut self, s: &str) -> fmt::Result {
let len = s.len();
self.bytes[self.pos..self.pos + len].copy_from_slice(s.as_bytes());
self.pos += len;
Ok(())
}
}
#[derive(Clone)]
struct DateService(Rc<DateServiceInner>);
struct DateServiceInner {
current: UnsafeCell<Option<(Date, Instant)>>,
}
impl DateServiceInner {
fn new() -> Self {
DateServiceInner {
current: UnsafeCell::new(None),
}
}
fn get_ref(&self) -> &Option<(Date, Instant)> {
unsafe { &*self.current.get() }
}
fn reset(&self) {
unsafe { (&mut *self.current.get()).take() };
}
fn update(&self) {
let now = Instant::now();
let date = Date::new();
*(unsafe { &mut *self.current.get() }) = Some((date, now));
}
}
impl DateService {
fn new() -> Self {
DateService(Rc::new(DateServiceInner::new()))
}
fn check_date(&self) {
if self.0.get_ref().is_none() {
self.0.update();
// periodic date update
let s = self.clone();
tokio_current_thread::spawn(sleep(Duration::from_millis(500)).then(
move |_| {
s.0.reset();
future::ok(())
},
));
}
}
fn now(&self) -> Instant {
self.check_date();
self.0.get_ref().as_ref().unwrap().1
}
fn date(&self) -> &Date {
self.check_date();
let item = self.0.get_ref().as_ref().unwrap();
&item.0
}
}
#[cfg(test)]
mod tests {
use super::*;
use actix_rt::System;
use futures::future;
#[test]
fn test_date_len() {
assert_eq!(DATE_VALUE_LENGTH, "Sun, 06 Nov 1994 08:49:37 GMT".len());
}
#[test]
fn test_date() {
let mut rt = System::new("test");
let _ = rt.block_on(future::lazy(|| {
let settings = ServiceConfig::new(KeepAlive::Os, 0, 0);
let mut buf1 = BytesMut::with_capacity(DATE_VALUE_LENGTH + 10);
settings.set_date(&mut buf1);
let mut buf2 = BytesMut::with_capacity(DATE_VALUE_LENGTH + 10);
settings.set_date(&mut buf2);
assert_eq!(buf1, buf2);
future::ok::<_, ()>(())
}));
}
}

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91
actix-http/src/extensions.rs Normal file
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use std::any::{Any, TypeId};
use std::fmt;
use hashbrown::HashMap;
#[derive(Default)]
/// A type map of request extensions.
pub struct Extensions {
map: HashMap<TypeId, Box<Any>>,
}
impl Extensions {
/// Create an empty `Extensions`.
#[inline]
pub fn new() -> Extensions {
Extensions {
map: HashMap::default(),
}
}
/// Insert a type into this `Extensions`.
///
/// If a extension of this type already existed, it will
/// be returned.
pub fn insert<T: 'static>(&mut self, val: T) {
self.map.insert(TypeId::of::<T>(), Box::new(val));
}
/// Check if container contains entry
pub fn contains<T: 'static>(&self) -> bool {
self.map.get(&TypeId::of::<T>()).is_some()
}
/// Get a reference to a type previously inserted on this `Extensions`.
pub fn get<T: 'static>(&self) -> Option<&T> {
self.map
.get(&TypeId::of::<T>())
.and_then(|boxed| (&**boxed as &(Any + 'static)).downcast_ref())
}
/// Get a mutable reference to a type previously inserted on this `Extensions`.
pub fn get_mut<T: 'static>(&mut self) -> Option<&mut T> {
self.map
.get_mut(&TypeId::of::<T>())
.and_then(|boxed| (&mut **boxed as &mut (Any + 'static)).downcast_mut())
}
/// Remove a type from this `Extensions`.
///
/// If a extension of this type existed, it will be returned.
pub fn remove<T: 'static>(&mut self) -> Option<T> {
self.map.remove(&TypeId::of::<T>()).and_then(|boxed| {
(boxed as Box<Any + 'static>)
.downcast()
.ok()
.map(|boxed| *boxed)
})
}
/// Clear the `Extensions` of all inserted extensions.
#[inline]
pub fn clear(&mut self) {
self.map.clear();
}
}
impl fmt::Debug for Extensions {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.debug_struct("Extensions").finish()
}
}
#[test]
fn test_extensions() {
#[derive(Debug, PartialEq)]
struct MyType(i32);
let mut extensions = Extensions::new();
extensions.insert(5i32);
extensions.insert(MyType(10));
assert_eq!(extensions.get(), Some(&5i32));
assert_eq!(extensions.get_mut(), Some(&mut 5i32));
assert_eq!(extensions.remove::<i32>(), Some(5i32));
assert!(extensions.get::<i32>().is_none());
assert_eq!(extensions.get::<bool>(), None);
assert_eq!(extensions.get(), Some(&MyType(10)));
}

241
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#![allow(unused_imports, unused_variables, dead_code)]
use std::io::{self, Write};
use actix_codec::{Decoder, Encoder};
use bitflags::bitflags;
use bytes::{BufMut, Bytes, BytesMut};
use http::header::{
HeaderValue, CONNECTION, CONTENT_LENGTH, DATE, TRANSFER_ENCODING, UPGRADE,
};
use http::{Method, Version};
use super::decoder::{PayloadDecoder, PayloadItem, PayloadType};
use super::{decoder, encoder};
use super::{Message, MessageType};
use crate::body::BodyLength;
use crate::config::ServiceConfig;
use crate::error::{ParseError, PayloadError};
use crate::helpers;
use crate::message::{ConnectionType, Head, MessagePool, RequestHead, ResponseHead};
bitflags! {
struct Flags: u8 {
const HEAD = 0b0000_0001;
const KEEPALIVE_ENABLED = 0b0000_1000;
const STREAM = 0b0001_0000;
}
}
const AVERAGE_HEADER_SIZE: usize = 30;
/// HTTP/1 Codec
pub struct ClientCodec {
inner: ClientCodecInner,
}
/// HTTP/1 Payload Codec
pub struct ClientPayloadCodec {
inner: ClientCodecInner,
}
struct ClientCodecInner {
config: ServiceConfig,
decoder: decoder::MessageDecoder<ResponseHead>,
payload: Option<PayloadDecoder>,
version: Version,
ctype: ConnectionType,
// encoder part
flags: Flags,
headers_size: u32,
encoder: encoder::MessageEncoder<RequestHead>,
}
impl Default for ClientCodec {
fn default() -> Self {
ClientCodec::new(ServiceConfig::default())
}
}
impl ClientCodec {
/// Create HTTP/1 codec.
///
/// `keepalive_enabled` how response `connection` header get generated.
pub fn new(config: ServiceConfig) -> Self {
let flags = if config.keep_alive_enabled() {
Flags::KEEPALIVE_ENABLED
} else {
Flags::empty()
};
ClientCodec {
inner: ClientCodecInner {
config,
decoder: decoder::MessageDecoder::default(),
payload: None,
version: Version::HTTP_11,
ctype: ConnectionType::Close,
flags,
headers_size: 0,
encoder: encoder::MessageEncoder::default(),
},
}
}
/// Check if request is upgrade
pub fn upgrade(&self) -> bool {
self.inner.ctype == ConnectionType::Upgrade
}
/// Check if last response is keep-alive
pub fn keepalive(&self) -> bool {
self.inner.ctype == ConnectionType::KeepAlive
}
/// Check last request's message type
pub fn message_type(&self) -> MessageType {
if self.inner.flags.contains(Flags::STREAM) {
MessageType::Stream
} else if self.inner.payload.is_none() {
MessageType::None
} else {
MessageType::Payload
}
}
/// Convert message codec to a payload codec
pub fn into_payload_codec(self) -> ClientPayloadCodec {
ClientPayloadCodec { inner: self.inner }
}
}
impl ClientPayloadCodec {
/// Check if last response is keep-alive
pub fn keepalive(&self) -> bool {
self.inner.ctype == ConnectionType::KeepAlive
}
/// Transform payload codec to a message codec
pub fn into_message_codec(self) -> ClientCodec {
ClientCodec { inner: self.inner }
}
}
impl Decoder for ClientCodec {
type Item = ResponseHead;
type Error = ParseError;
fn decode(&mut self, src: &mut BytesMut) -> Result<Option<Self::Item>, Self::Error> {
debug_assert!(!self.inner.payload.is_some(), "Payload decoder is set");
if let Some((req, payload)) = self.inner.decoder.decode(src)? {
if let Some(ctype) = req.ctype {
// do not use peer's keep-alive
self.inner.ctype = if ctype == ConnectionType::KeepAlive {
self.inner.ctype
} else {
ctype
};
}
if !self.inner.flags.contains(Flags::HEAD) {
match payload {
PayloadType::None => self.inner.payload = None,
PayloadType::Payload(pl) => self.inner.payload = Some(pl),
PayloadType::Stream(pl) => {
self.inner.payload = Some(pl);
self.inner.flags.insert(Flags::STREAM);
}
}
} else {
self.inner.payload = None;
}
Ok(Some(req))
} else {
Ok(None)
}
}
}
impl Decoder for ClientPayloadCodec {
type Item = Option<Bytes>;
type Error = PayloadError;
fn decode(&mut self, src: &mut BytesMut) -> Result<Option<Self::Item>, Self::Error> {
debug_assert!(
self.inner.payload.is_some(),
"Payload decoder is not specified"
);
Ok(match self.inner.payload.as_mut().unwrap().decode(src)? {
Some(PayloadItem::Chunk(chunk)) => Some(Some(chunk)),
Some(PayloadItem::Eof) => {
self.inner.payload.take();
Some(None)
}
None => None,
})
}
}
impl Encoder for ClientCodec {
type Item = Message<(RequestHead, BodyLength)>;
type Error = io::Error;
fn encode(
&mut self,
item: Self::Item,
dst: &mut BytesMut,
) -> Result<(), Self::Error> {
match item {
Message::Item((mut msg, length)) => {
let inner = &mut self.inner;
inner.version = msg.version;
inner.flags.set(Flags::HEAD, msg.method == Method::HEAD);
// connection status
inner.ctype = match msg.connection_type() {
ConnectionType::KeepAlive => {
if inner.flags.contains(Flags::KEEPALIVE_ENABLED) {
ConnectionType::KeepAlive
} else {
ConnectionType::Close
}
}
ConnectionType::Upgrade => ConnectionType::Upgrade,
ConnectionType::Close => ConnectionType::Close,
};
inner.encoder.encode(
dst,
&mut msg,
false,
false,
inner.version,
length,
inner.ctype,
&inner.config,
)?;
}
Message::Chunk(Some(bytes)) => {
self.inner.encoder.encode_chunk(bytes.as_ref(), dst)?;
}
Message::Chunk(None) => {
self.inner.encoder.encode_eof(dst)?;
}
}
Ok(())
}
}
pub struct Writer<'a>(pub &'a mut BytesMut);
impl<'a> io::Write for Writer<'a> {
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
self.0.extend_from_slice(buf);
Ok(buf.len())
}
fn flush(&mut self) -> io::Result<()> {
Ok(())
}
}

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#![allow(unused_imports, unused_variables, dead_code)]
use std::fmt;
use std::io::{self, Write};
use actix_codec::{Decoder, Encoder};
use bitflags::bitflags;
use bytes::{BufMut, Bytes, BytesMut};
use http::header::{HeaderValue, CONNECTION, CONTENT_LENGTH, DATE, TRANSFER_ENCODING};
use http::{Method, StatusCode, Version};
use super::decoder::{PayloadDecoder, PayloadItem, PayloadType};
use super::{decoder, encoder};
use super::{Message, MessageType};
use crate::body::BodyLength;
use crate::config::ServiceConfig;
use crate::error::ParseError;
use crate::helpers;
use crate::message::{ConnectionType, Head, ResponseHead};
use crate::request::Request;
use crate::response::Response;
bitflags! {
struct Flags: u8 {
const HEAD = 0b0000_0001;
const KEEPALIVE_ENABLED = 0b0000_1000;
const STREAM = 0b0001_0000;
}
}
const AVERAGE_HEADER_SIZE: usize = 30;
/// HTTP/1 Codec
pub struct Codec {
config: ServiceConfig,
decoder: decoder::MessageDecoder<Request>,
payload: Option<PayloadDecoder>,
version: Version,
ctype: ConnectionType,
// encoder part
flags: Flags,
headers_size: u32,
encoder: encoder::MessageEncoder<Response<()>>,
}
impl Default for Codec {
fn default() -> Self {
Codec::new(ServiceConfig::default())
}
}
impl fmt::Debug for Codec {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "h1::Codec({:?})", self.flags)
}
}
impl Codec {
/// Create HTTP/1 codec.
///
/// `keepalive_enabled` how response `connection` header get generated.
pub fn new(config: ServiceConfig) -> Self {
let flags = if config.keep_alive_enabled() {
Flags::KEEPALIVE_ENABLED
} else {
Flags::empty()
};
Codec {
config,
decoder: decoder::MessageDecoder::default(),
payload: None,
version: Version::HTTP_11,
ctype: ConnectionType::Close,
flags,
headers_size: 0,
encoder: encoder::MessageEncoder::default(),
}
}
/// Check if request is upgrade
pub fn upgrade(&self) -> bool {
self.ctype == ConnectionType::Upgrade
}
/// Check if last response is keep-alive
pub fn keepalive(&self) -> bool {
self.ctype == ConnectionType::KeepAlive
}
/// Check last request's message type
pub fn message_type(&self) -> MessageType {
if self.flags.contains(Flags::STREAM) {
MessageType::Stream
} else if self.payload.is_none() {
MessageType::None
} else {
MessageType::Payload
}
}
}
impl Decoder for Codec {
type Item = Message<Request>;
type Error = ParseError;
fn decode(&mut self, src: &mut BytesMut) -> Result<Option<Self::Item>, Self::Error> {
if self.payload.is_some() {
Ok(match self.payload.as_mut().unwrap().decode(src)? {
Some(PayloadItem::Chunk(chunk)) => Some(Message::Chunk(Some(chunk))),
Some(PayloadItem::Eof) => {
self.payload.take();
Some(Message::Chunk(None))
}
None => None,
})
} else if let Some((req, payload)) = self.decoder.decode(src)? {
let head = req.head();
self.flags.set(Flags::HEAD, head.method == Method::HEAD);
self.version = head.version;
self.ctype = head.connection_type();
if self.ctype == ConnectionType::KeepAlive
&& !self.flags.contains(Flags::KEEPALIVE_ENABLED)
{
self.ctype = ConnectionType::Close
}
match payload {
PayloadType::None => self.payload = None,
PayloadType::Payload(pl) => self.payload = Some(pl),
PayloadType::Stream(pl) => {
self.payload = Some(pl);
self.flags.insert(Flags::STREAM);
}
}
Ok(Some(Message::Item(req)))
} else {
Ok(None)
}
}
}
impl Encoder for Codec {
type Item = Message<(Response<()>, BodyLength)>;
type Error = io::Error;
fn encode(
&mut self,
item: Self::Item,
dst: &mut BytesMut,
) -> Result<(), Self::Error> {
match item {
Message::Item((mut res, length)) => {
// set response version
res.head_mut().version = self.version;
// connection status
self.ctype = if let Some(ct) = res.head().ctype {
if ct == ConnectionType::KeepAlive {
self.ctype
} else {
ct
}
} else {
self.ctype
};
// encode message
let len = dst.len();
self.encoder.encode(
dst,
&mut res,
self.flags.contains(Flags::HEAD),
self.flags.contains(Flags::STREAM),
self.version,
length,
self.ctype,
&self.config,
)?;
self.headers_size = (dst.len() - len) as u32;
}
Message::Chunk(Some(bytes)) => {
self.encoder.encode_chunk(bytes.as_ref(), dst)?;
}
Message::Chunk(None) => {
self.encoder.encode_eof(dst)?;
}
}
Ok(())
}
}
#[cfg(test)]
mod tests {
use std::{cmp, io};
use actix_codec::{AsyncRead, AsyncWrite};
use bytes::{Buf, Bytes, BytesMut};
use http::{Method, Version};
use super::*;
use crate::error::ParseError;
use crate::h1::Message;
use crate::httpmessage::HttpMessage;
use crate::request::Request;
#[test]
fn test_http_request_chunked_payload_and_next_message() {
let mut codec = Codec::default();
let mut buf = BytesMut::from(
"GET /test HTTP/1.1\r\n\
transfer-encoding: chunked\r\n\r\n",
);
let item = codec.decode(&mut buf).unwrap().unwrap();
let req = item.message();
assert_eq!(req.method(), Method::GET);
assert!(req.chunked().unwrap());
buf.extend(
b"4\r\ndata\r\n4\r\nline\r\n0\r\n\r\n\
POST /test2 HTTP/1.1\r\n\
transfer-encoding: chunked\r\n\r\n"
.iter(),
);
let msg = codec.decode(&mut buf).unwrap().unwrap();
assert_eq!(msg.chunk().as_ref(), b"data");
let msg = codec.decode(&mut buf).unwrap().unwrap();
assert_eq!(msg.chunk().as_ref(), b"line");
let msg = codec.decode(&mut buf).unwrap().unwrap();
assert!(msg.eof());
// decode next message
let item = codec.decode(&mut buf).unwrap().unwrap();
let req = item.message();
assert_eq!(*req.method(), Method::POST);
assert!(req.chunked().unwrap());
}
}

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636
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use std::collections::VecDeque;
use std::fmt::Debug;
use std::mem;
use std::time::Instant;
use actix_codec::{AsyncRead, AsyncWrite, Framed};
use actix_service::Service;
use actix_utils::cloneable::CloneableService;
use bitflags::bitflags;
use futures::{Async, Future, Poll, Sink, Stream};
use log::{debug, error, trace};
use tokio_timer::Delay;
use crate::body::{Body, BodyLength, MessageBody, ResponseBody};
use crate::config::ServiceConfig;
use crate::error::DispatchError;
use crate::error::{ParseError, PayloadError};
use crate::request::Request;
use crate::response::Response;
use super::codec::Codec;
use super::payload::{Payload, PayloadSender, PayloadStatus, PayloadWriter};
use super::{Message, MessageType};
const MAX_PIPELINED_MESSAGES: usize = 16;
bitflags! {
pub struct Flags: u8 {
const STARTED = 0b0000_0001;
const KEEPALIVE_ENABLED = 0b0000_0010;
const KEEPALIVE = 0b0000_0100;
const POLLED = 0b0000_1000;
const SHUTDOWN = 0b0010_0000;
const DISCONNECTED = 0b0100_0000;
const DROPPING = 0b1000_0000;
}
}
/// Dispatcher for HTTP/1.1 protocol
pub struct Dispatcher<T, S: Service<Request = Request> + 'static, B: MessageBody>
where
S::Error: Debug,
{
inner: Option<InnerDispatcher<T, S, B>>,
}
struct InnerDispatcher<T, S: Service<Request = Request> + 'static, B: MessageBody>
where
S::Error: Debug,
{
service: CloneableService<S>,
flags: Flags,
framed: Framed<T, Codec>,
error: Option<DispatchError>,
config: ServiceConfig,
state: State<S, B>,
payload: Option<PayloadSender>,
messages: VecDeque<DispatcherMessage>,
ka_expire: Instant,
ka_timer: Option<Delay>,
}
enum DispatcherMessage {
Item(Request),
Error(Response<()>),
}
enum State<S: Service<Request = Request>, B: MessageBody> {
None,
ServiceCall(S::Future),
SendPayload(ResponseBody<B>),
}
impl<S: Service<Request = Request>, B: MessageBody> State<S, B> {
fn is_empty(&self) -> bool {
if let State::None = self {
true
} else {
false
}
}
}
impl<T, S, B> Dispatcher<T, S, B>
where
T: AsyncRead + AsyncWrite,
S: Service<Request = Request> + 'static,
S::Error: Debug,
S::Response: Into<Response<B>>,
B: MessageBody,
{
/// Create http/1 dispatcher.
pub fn new(stream: T, config: ServiceConfig, service: CloneableService<S>) -> Self {
Dispatcher::with_timeout(
Framed::new(stream, Codec::new(config.clone())),
config,
None,
service,
)
}
/// Create http/1 dispatcher with slow request timeout.
pub fn with_timeout(
framed: Framed<T, Codec>,
config: ServiceConfig,
timeout: Option<Delay>,
service: CloneableService<S>,
) -> Self {
let keepalive = config.keep_alive_enabled();
let flags = if keepalive {
Flags::KEEPALIVE | Flags::KEEPALIVE_ENABLED
} else {
Flags::empty()
};
// keep-alive timer
let (ka_expire, ka_timer) = if let Some(delay) = timeout {
(delay.deadline(), Some(delay))
} else if let Some(delay) = config.keep_alive_timer() {
(delay.deadline(), Some(delay))
} else {
(config.now(), None)
};
Dispatcher {
inner: Some(InnerDispatcher {
framed,
payload: None,
state: State::None,
error: None,
messages: VecDeque::new(),
service,
flags,
config,
ka_expire,
ka_timer,
}),
}
}
}
impl<T, S, B> InnerDispatcher<T, S, B>
where
T: AsyncRead + AsyncWrite,
S: Service<Request = Request> + 'static,
S::Error: Debug,
S::Response: Into<Response<B>>,
B: MessageBody,
{
fn can_read(&self) -> bool {
if self.flags.contains(Flags::DISCONNECTED) {
return false;
}
if let Some(ref info) = self.payload {
info.need_read() == PayloadStatus::Read
} else {
true
}
}
// if checked is set to true, delay disconnect until all tasks have finished.
fn client_disconnected(&mut self) {
self.flags.insert(Flags::DISCONNECTED);
if let Some(mut payload) = self.payload.take() {
payload.set_error(PayloadError::Incomplete(None));
}
}
/// Flush stream
fn poll_flush(&mut self) -> Poll<bool, DispatchError> {
if !self.framed.is_write_buf_empty() {
match self.framed.poll_complete() {
Ok(Async::NotReady) => Ok(Async::NotReady),
Err(err) => {
debug!("Error sending data: {}", err);
Err(err.into())
}
Ok(Async::Ready(_)) => {
// if payload is not consumed we can not use connection
if self.payload.is_some() && self.state.is_empty() {
return Err(DispatchError::PayloadIsNotConsumed);
}
Ok(Async::Ready(true))
}
}
} else {
Ok(Async::Ready(false))
}
}
fn send_response(
&mut self,
message: Response<()>,
body: ResponseBody<B>,
) -> Result<State<S, B>, DispatchError> {
self.framed
.force_send(Message::Item((message, body.length())))
.map_err(|err| {
if let Some(mut payload) = self.payload.take() {
payload.set_error(PayloadError::Incomplete(None));
}
DispatchError::Io(err)
})?;
self.flags
.set(Flags::KEEPALIVE, self.framed.get_codec().keepalive());
match body.length() {
BodyLength::None | BodyLength::Empty => Ok(State::None),
_ => Ok(State::SendPayload(body)),
}
}
fn poll_response(&mut self) -> Result<(), DispatchError> {
let mut retry = self.can_read();
loop {
let state = match mem::replace(&mut self.state, State::None) {
State::None => match self.messages.pop_front() {
Some(DispatcherMessage::Item(req)) => {
Some(self.handle_request(req)?)
}
Some(DispatcherMessage::Error(res)) => {
self.send_response(res, ResponseBody::Other(Body::Empty))?;
None
}
None => None,
},
State::ServiceCall(mut fut) => match fut.poll() {
Ok(Async::Ready(res)) => {
let (res, body) = res.into().replace_body(());
Some(self.send_response(res, body)?)
}
Ok(Async::NotReady) => {
self.state = State::ServiceCall(fut);
None
}
Err(_e) => {
let res: Response = Response::InternalServerError().finish();
let (res, body) = res.replace_body(());
Some(self.send_response(res, body.into_body())?)
}
},
State::SendPayload(mut stream) => {
loop {
if !self.framed.is_write_buf_full() {
match stream
.poll_next()
.map_err(|_| DispatchError::Unknown)?
{
Async::Ready(Some(item)) => {
self.framed
.force_send(Message::Chunk(Some(item)))?;
continue;
}
Async::Ready(None) => {
self.framed.force_send(Message::Chunk(None))?;
}
Async::NotReady => {
self.state = State::SendPayload(stream);
return Ok(());
}
}
} else {
self.state = State::SendPayload(stream);
return Ok(());
}
break;
}
None
}
};
match state {
Some(state) => self.state = state,
None => {
// if read-backpressure is enabled and we consumed some data.
// we may read more data and retry
if !retry && self.can_read() && self.poll_request()? {
retry = self.can_read();
continue;
}
break;
}
}
}
Ok(())
}
fn handle_request(&mut self, req: Request) -> Result<State<S, B>, DispatchError> {
let mut task = self.service.call(req);
match task.poll() {
Ok(Async::Ready(res)) => {
let (res, body) = res.into().replace_body(());
self.send_response(res, body)
}
Ok(Async::NotReady) => Ok(State::ServiceCall(task)),
Err(_e) => {
let res: Response = Response::InternalServerError().finish();
let (res, body) = res.replace_body(());
self.send_response(res, body.into_body())
}
}
}
/// Process one incoming requests
pub(self) fn poll_request(&mut self) -> Result<bool, DispatchError> {
// limit a mount of non processed requests
if self.messages.len() >= MAX_PIPELINED_MESSAGES {
return Ok(false);
}
let mut updated = false;
loop {
match self.framed.poll() {
Ok(Async::Ready(Some(msg))) => {
updated = true;
self.flags.insert(Flags::STARTED);
match msg {
Message::Item(mut req) => {
match self.framed.get_codec().message_type() {
MessageType::Payload | MessageType::Stream => {
let (ps, pl) = Payload::create(false);
let (req1, _) =
req.replace_payload(crate::Payload::H1(pl));
req = req1;
self.payload = Some(ps);
}
//MessageType::Stream => {
// self.unhandled = Some(req);
// return Ok(updated);
//}
_ => (),
}
// handle request early
if self.state.is_empty() {
self.state = self.handle_request(req)?;
} else {
self.messages.push_back(DispatcherMessage::Item(req));
}
}
Message::Chunk(Some(chunk)) => {
if let Some(ref mut payload) = self.payload {
payload.feed_data(chunk);
} else {
error!(
"Internal server error: unexpected payload chunk"
);
self.flags.insert(Flags::DISCONNECTED);
self.messages.push_back(DispatcherMessage::Error(
Response::InternalServerError().finish().drop_body(),
));
self.error = Some(DispatchError::InternalError);
break;
}
}
Message::Chunk(None) => {
if let Some(mut payload) = self.payload.take() {
payload.feed_eof();
} else {
error!("Internal server error: unexpected eof");
self.flags.insert(Flags::DISCONNECTED);
self.messages.push_back(DispatcherMessage::Error(
Response::InternalServerError().finish().drop_body(),
));
self.error = Some(DispatchError::InternalError);
break;
}
}
}
}
Ok(Async::Ready(None)) => {
self.client_disconnected();
break;
}
Ok(Async::NotReady) => break,
Err(ParseError::Io(e)) => {
self.client_disconnected();
self.error = Some(DispatchError::Io(e));
break;
}
Err(e) => {
if let Some(mut payload) = self.payload.take() {
payload.set_error(PayloadError::EncodingCorrupted);
}
// Malformed requests should be responded with 400
self.messages.push_back(DispatcherMessage::Error(
Response::BadRequest().finish().drop_body(),
));
self.flags.insert(Flags::DISCONNECTED);
self.error = Some(e.into());
break;
}
}
}
if self.ka_timer.is_some() && updated {
if let Some(expire) = self.config.keep_alive_expire() {
self.ka_expire = expire;
}
}
Ok(updated)
}
/// keep-alive timer
fn poll_keepalive(&mut self) -> Result<(), DispatchError> {
if self.ka_timer.is_none() {
// shutdown timeout
if self.flags.contains(Flags::SHUTDOWN) {
if let Some(interval) = self.config.client_disconnect_timer() {
self.ka_timer = Some(Delay::new(interval));
} else {
self.flags.insert(Flags::DISCONNECTED);
return Ok(());
}
} else {
return Ok(());
}
}
match self.ka_timer.as_mut().unwrap().poll().map_err(|e| {
error!("Timer error {:?}", e);
DispatchError::Unknown
})? {
Async::Ready(_) => {
// if we get timeout during shutdown, drop connection
if self.flags.contains(Flags::SHUTDOWN) {
return Err(DispatchError::DisconnectTimeout);
} else if self.ka_timer.as_mut().unwrap().deadline() >= self.ka_expire {
// check for any outstanding tasks
if self.state.is_empty() && self.framed.is_write_buf_empty() {
if self.flags.contains(Flags::STARTED) {
trace!("Keep-alive timeout, close connection");
self.flags.insert(Flags::SHUTDOWN);
// start shutdown timer
if let Some(deadline) = self.config.client_disconnect_timer()
{
if let Some(timer) = self.ka_timer.as_mut() {
timer.reset(deadline);
let _ = timer.poll();
}
} else {
// no shutdown timeout, drop socket
self.flags.insert(Flags::DISCONNECTED);
return Ok(());
}
} else {
// timeout on first request (slow request) return 408
if !self.flags.contains(Flags::STARTED) {
trace!("Slow request timeout");
let _ = self.send_response(
Response::RequestTimeout().finish().drop_body(),
ResponseBody::Other(Body::Empty),
);
} else {
trace!("Keep-alive connection timeout");
}
self.flags.insert(Flags::STARTED | Flags::SHUTDOWN);
self.state = State::None;
}
} else if let Some(deadline) = self.config.keep_alive_expire() {
if let Some(timer) = self.ka_timer.as_mut() {
timer.reset(deadline);
let _ = timer.poll();
}
}
} else if let Some(timer) = self.ka_timer.as_mut() {
timer.reset(self.ka_expire);
let _ = timer.poll();
}
}
Async::NotReady => (),
}
Ok(())
}
}
impl<T, S, B> Future for Dispatcher<T, S, B>
where
T: AsyncRead + AsyncWrite,
S: Service<Request = Request>,
S::Error: Debug,
S::Response: Into<Response<B>>,
B: MessageBody,
{
type Item = ();
type Error = DispatchError;
#[inline]
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
let inner = self.inner.as_mut().unwrap();
if inner.flags.contains(Flags::SHUTDOWN) {
inner.poll_keepalive()?;
if inner.flags.contains(Flags::DISCONNECTED) {
Ok(Async::Ready(()))
} else {
// try_ready!(inner.poll_flush());
match inner.framed.get_mut().shutdown()? {
Async::Ready(_) => Ok(Async::Ready(())),
Async::NotReady => Ok(Async::NotReady),
}
}
} else {
inner.poll_keepalive()?;
inner.poll_request()?;
loop {
inner.poll_response()?;
if let Async::Ready(false) = inner.poll_flush()? {
break;
}
}
if inner.flags.contains(Flags::DISCONNECTED) {
return Ok(Async::Ready(()));
}
// keep-alive and stream errors
if inner.state.is_empty() && inner.framed.is_write_buf_empty() {
if let Some(err) = inner.error.take() {
return Err(err);
}
// disconnect if keep-alive is not enabled
else if inner.flags.contains(Flags::STARTED)
&& !inner.flags.intersects(Flags::KEEPALIVE)
{
inner.flags.insert(Flags::SHUTDOWN);
self.poll()
}
// disconnect if shutdown
else if inner.flags.contains(Flags::SHUTDOWN) {
self.poll()
} else {
return Ok(Async::NotReady);
}
} else {
return Ok(Async::NotReady);
}
}
}
}
#[cfg(test)]
mod tests {
use std::{cmp, io};
use actix_codec::{AsyncRead, AsyncWrite};
use actix_service::IntoService;
use bytes::{Buf, Bytes};
use futures::future::{lazy, ok};
use super::*;
use crate::error::Error;
struct Buffer {
buf: Bytes,
err: Option<io::Error>,
}
impl Buffer {
fn new(data: &'static str) -> Buffer {
Buffer {
buf: Bytes::from(data),
err: None,
}
}
}
impl AsyncRead for Buffer {}
impl io::Read for Buffer {
fn read(&mut self, dst: &mut [u8]) -> Result<usize, io::Error> {
if self.buf.is_empty() {
if self.err.is_some() {
Err(self.err.take().unwrap())
} else {
Err(io::Error::new(io::ErrorKind::WouldBlock, ""))
}
} else {
let size = cmp::min(self.buf.len(), dst.len());
let b = self.buf.split_to(size);
dst[..size].copy_from_slice(&b);
Ok(size)
}
}
}
impl io::Write for Buffer {
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
Ok(buf.len())
}
fn flush(&mut self) -> io::Result<()> {
Ok(())
}
}
impl AsyncWrite for Buffer {
fn shutdown(&mut self) -> Poll<(), io::Error> {
Ok(Async::Ready(()))
}
fn write_buf<B: Buf>(&mut self, _: &mut B) -> Poll<usize, io::Error> {
Ok(Async::NotReady)
}
}
#[test]
fn test_req_parse_err() {
let mut sys = actix_rt::System::new("test");
let _ = sys.block_on(lazy(|| {
let buf = Buffer::new("GET /test HTTP/1\r\n\r\n");
let mut h1 = Dispatcher::new(
buf,
ServiceConfig::default(),
CloneableService::new(
(|_| ok::<_, Error>(Response::Ok().finish())).into_service(),
),
);
assert!(h1.poll().is_ok());
assert!(h1.poll().is_ok());
assert!(h1
.inner
.as_ref()
.unwrap()
.flags
.contains(Flags::DISCONNECTED));
// assert_eq!(h1.tasks.len(), 1);
ok::<_, ()>(())
}));
}
}

421
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#![allow(unused_imports, unused_variables, dead_code)]
use std::fmt::Write as FmtWrite;
use std::io::Write;
use std::marker::PhantomData;
use std::str::FromStr;
use std::{cmp, fmt, io, mem};
use bytes::{BufMut, Bytes, BytesMut};
use http::header::{
HeaderValue, ACCEPT_ENCODING, CONNECTION, CONTENT_LENGTH, DATE, TRANSFER_ENCODING,
};
use http::{HeaderMap, Method, StatusCode, Version};
use crate::body::BodyLength;
use crate::config::ServiceConfig;
use crate::header::ContentEncoding;
use crate::helpers;
use crate::message::{ConnectionType, RequestHead, ResponseHead};
use crate::request::Request;
use crate::response::Response;
const AVERAGE_HEADER_SIZE: usize = 30;
#[derive(Debug)]
pub(crate) struct MessageEncoder<T: MessageType> {
pub length: BodyLength,
pub te: TransferEncoding,
_t: PhantomData<T>,
}
impl<T: MessageType> Default for MessageEncoder<T> {
fn default() -> Self {
MessageEncoder {
length: BodyLength::None,
te: TransferEncoding::empty(),
_t: PhantomData,
}
}
}
pub(crate) trait MessageType: Sized {
fn status(&self) -> Option<StatusCode>;
fn connection_type(&self) -> Option<ConnectionType>;
fn headers(&self) -> &HeaderMap;
fn chunked(&self) -> bool;
fn encode_status(&mut self, dst: &mut BytesMut) -> io::Result<()>;
fn encode_headers(
&mut self,
dst: &mut BytesMut,
version: Version,
mut length: BodyLength,
ctype: ConnectionType,
config: &ServiceConfig,
) -> io::Result<()> {
let chunked = self.chunked();
let mut skip_len = length != BodyLength::Stream;
// Content length
if let Some(status) = self.status() {
match status {
StatusCode::NO_CONTENT
| StatusCode::CONTINUE
| StatusCode::PROCESSING => length = BodyLength::None,
StatusCode::SWITCHING_PROTOCOLS => {
skip_len = true;
length = BodyLength::Stream;
}
_ => (),
}
}
match length {
BodyLength::Stream => {
if chunked {
dst.extend_from_slice(b"\r\ntransfer-encoding: chunked\r\n")
} else {
skip_len = false;
dst.extend_from_slice(b"\r\n");
}
}
BodyLength::Empty => {
dst.extend_from_slice(b"\r\ncontent-length: 0\r\n");
}
BodyLength::Sized(len) => helpers::write_content_length(len, dst),
BodyLength::Sized64(len) => {
dst.extend_from_slice(b"\r\ncontent-length: ");
write!(dst.writer(), "{}", len)?;
dst.extend_from_slice(b"\r\n");
}
BodyLength::None => dst.extend_from_slice(b"\r\n"),
}
// Connection
match ctype {
ConnectionType::Upgrade => dst.extend_from_slice(b"connection: upgrade\r\n"),
ConnectionType::KeepAlive if version < Version::HTTP_11 => {
dst.extend_from_slice(b"connection: keep-alive\r\n")
}
ConnectionType::Close if version >= Version::HTTP_11 => {
dst.extend_from_slice(b"connection: close\r\n")
}
_ => (),
}
// write headers
let mut pos = 0;
let mut has_date = false;
let mut remaining = dst.remaining_mut();
let mut buf = unsafe { &mut *(dst.bytes_mut() as *mut [u8]) };
for (key, value) in self.headers() {
match *key {
CONNECTION => continue,
TRANSFER_ENCODING | CONTENT_LENGTH if skip_len => continue,
DATE => {
has_date = true;
}
_ => (),
}
let v = value.as_ref();
let k = key.as_str().as_bytes();
let len = k.len() + v.len() + 4;
if len > remaining {
unsafe {
dst.advance_mut(pos);
}
pos = 0;
dst.reserve(len);
remaining = dst.remaining_mut();
unsafe {
buf = &mut *(dst.bytes_mut() as *mut _);
}
}
buf[pos..pos + k.len()].copy_from_slice(k);
pos += k.len();
buf[pos..pos + 2].copy_from_slice(b": ");
pos += 2;
buf[pos..pos + v.len()].copy_from_slice(v);
pos += v.len();
buf[pos..pos + 2].copy_from_slice(b"\r\n");
pos += 2;
remaining -= len;
}
unsafe {
dst.advance_mut(pos);
}
// optimized date header, set_date writes \r\n
if !has_date {
config.set_date(dst);
} else {
// msg eof
dst.extend_from_slice(b"\r\n");
}
Ok(())
}
}
impl MessageType for Response<()> {
fn status(&self) -> Option<StatusCode> {
Some(self.head().status)
}
fn chunked(&self) -> bool {
!self.head().no_chunking
}
fn connection_type(&self) -> Option<ConnectionType> {
self.head().ctype
}
fn headers(&self) -> &HeaderMap {
&self.head().headers
}
fn encode_status(&mut self, dst: &mut BytesMut) -> io::Result<()> {
let head = self.head();
let reason = head.reason().as_bytes();
dst.reserve(256 + head.headers.len() * AVERAGE_HEADER_SIZE + reason.len());
// status line
helpers::write_status_line(head.version, head.status.as_u16(), dst);
dst.extend_from_slice(reason);
Ok(())
}
}
impl MessageType for RequestHead {
fn status(&self) -> Option<StatusCode> {
None
}
fn connection_type(&self) -> Option<ConnectionType> {
self.ctype
}
fn chunked(&self) -> bool {
!self.no_chunking
}
fn headers(&self) -> &HeaderMap {
&self.headers
}
fn encode_status(&mut self, dst: &mut BytesMut) -> io::Result<()> {
write!(
Writer(dst),
"{} {} {}",
self.method,
self.uri.path_and_query().map(|u| u.as_str()).unwrap_or("/"),
match self.version {
Version::HTTP_09 => "HTTP/0.9",
Version::HTTP_10 => "HTTP/1.0",
Version::HTTP_11 => "HTTP/1.1",
Version::HTTP_2 => "HTTP/2.0",
}
)
.map_err(|e| io::Error::new(io::ErrorKind::Other, e))
}
}
impl<T: MessageType> MessageEncoder<T> {
/// Encode message
pub fn encode_chunk(&mut self, msg: &[u8], buf: &mut BytesMut) -> io::Result<bool> {
self.te.encode(msg, buf)
}
/// Encode eof
pub fn encode_eof(&mut self, buf: &mut BytesMut) -> io::Result<()> {
self.te.encode_eof(buf)
}
pub fn encode(
&mut self,
dst: &mut BytesMut,
message: &mut T,
head: bool,
stream: bool,
version: Version,
length: BodyLength,
ctype: ConnectionType,
config: &ServiceConfig,
) -> io::Result<()> {
// transfer encoding
if !head {
self.te = match length {
BodyLength::Empty => TransferEncoding::empty(),
BodyLength::Sized(len) => TransferEncoding::length(len as u64),
BodyLength::Sized64(len) => TransferEncoding::length(len),
BodyLength::Stream => {
if message.chunked() && !stream {
TransferEncoding::chunked()
} else {
TransferEncoding::eof()
}
}
BodyLength::None => TransferEncoding::empty(),
};
} else {
self.te = TransferEncoding::empty();
}
message.encode_status(dst)?;
message.encode_headers(dst, version, length, ctype, config)
}
}
/// Encoders to handle different Transfer-Encodings.
#[derive(Debug)]
pub(crate) struct TransferEncoding {
kind: TransferEncodingKind,
}
#[derive(Debug, PartialEq, Clone)]
enum TransferEncodingKind {
/// An Encoder for when Transfer-Encoding includes `chunked`.
Chunked(bool),
/// An Encoder for when Content-Length is set.
///
/// Enforces that the body is not longer than the Content-Length header.
Length(u64),
/// An Encoder for when Content-Length is not known.
///
/// Application decides when to stop writing.
Eof,
}
impl TransferEncoding {
#[inline]
pub fn empty() -> TransferEncoding {
TransferEncoding {
kind: TransferEncodingKind::Length(0),
}
}
#[inline]
pub fn eof() -> TransferEncoding {
TransferEncoding {
kind: TransferEncodingKind::Eof,
}
}
#[inline]
pub fn chunked() -> TransferEncoding {
TransferEncoding {
kind: TransferEncodingKind::Chunked(false),
}
}
#[inline]
pub fn length(len: u64) -> TransferEncoding {
TransferEncoding {
kind: TransferEncodingKind::Length(len),
}
}
/// Encode message. Return `EOF` state of encoder
#[inline]
pub fn encode(&mut self, msg: &[u8], buf: &mut BytesMut) -> io::Result<bool> {
match self.kind {
TransferEncodingKind::Eof => {
let eof = msg.is_empty();
buf.extend_from_slice(msg);
Ok(eof)
}
TransferEncodingKind::Chunked(ref mut eof) => {
if *eof {
return Ok(true);
}
if msg.is_empty() {
*eof = true;
buf.extend_from_slice(b"0\r\n\r\n");
} else {
writeln!(Writer(buf), "{:X}\r", msg.len())
.map_err(|e| io::Error::new(io::ErrorKind::Other, e))?;
buf.reserve(msg.len() + 2);
buf.extend_from_slice(msg);
buf.extend_from_slice(b"\r\n");
}
Ok(*eof)
}
TransferEncodingKind::Length(ref mut remaining) => {
if *remaining > 0 {
if msg.is_empty() {
return Ok(*remaining == 0);
}
let len = cmp::min(*remaining, msg.len() as u64);
buf.extend_from_slice(&msg[..len as usize]);
*remaining -= len as u64;
Ok(*remaining == 0)
} else {
Ok(true)
}
}
}
}
/// Encode eof. Return `EOF` state of encoder
#[inline]
pub fn encode_eof(&mut self, buf: &mut BytesMut) -> io::Result<()> {
match self.kind {
TransferEncodingKind::Eof => Ok(()),
TransferEncodingKind::Length(rem) => {
if rem != 0 {
Err(io::Error::new(io::ErrorKind::UnexpectedEof, ""))
} else {
Ok(())
}
}
TransferEncodingKind::Chunked(ref mut eof) => {
if !*eof {
*eof = true;
buf.extend_from_slice(b"0\r\n\r\n");
}
Ok(())
}
}
}
}
struct Writer<'a>(pub &'a mut BytesMut);
impl<'a> io::Write for Writer<'a> {
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
self.0.extend_from_slice(buf);
Ok(buf.len())
}
fn flush(&mut self) -> io::Result<()> {
Ok(())
}
}
#[cfg(test)]
mod tests {
use super::*;
use bytes::Bytes;
#[test]
fn test_chunked_te() {
let mut bytes = BytesMut::new();
let mut enc = TransferEncoding::chunked();
{
assert!(!enc.encode(b"test", &mut bytes).ok().unwrap());
assert!(enc.encode(b"", &mut bytes).ok().unwrap());
}
assert_eq!(
bytes.take().freeze(),
Bytes::from_static(b"4\r\ntest\r\n0\r\n\r\n")
);
}
}

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//! HTTP/1 implementation
use bytes::Bytes;
mod client;
mod codec;
mod decoder;
mod dispatcher;
mod encoder;
mod payload;
mod service;
pub use self::client::{ClientCodec, ClientPayloadCodec};
pub use self::codec::Codec;
pub use self::dispatcher::Dispatcher;
pub use self::payload::{Payload, PayloadBuffer};
pub use self::service::{H1Service, H1ServiceHandler, OneRequest};
#[derive(Debug)]
/// Codec message
pub enum Message<T> {
/// Http message
Item(T),
/// Payload chunk
Chunk(Option<Bytes>),
}
impl<T> From<T> for Message<T> {
fn from(item: T) -> Self {
Message::Item(item)
}
}
/// Incoming request type
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub enum MessageType {
None,
Payload,
Stream,
}
#[cfg(test)]
mod tests {
use super::*;
use crate::request::Request;
impl Message<Request> {
pub fn message(self) -> Request {
match self {
Message::Item(req) => req,
_ => panic!("error"),
}
}
pub fn chunk(self) -> Bytes {
match self {
Message::Chunk(Some(data)) => data,
_ => panic!("error"),
}
}
pub fn eof(self) -> bool {
match self {
Message::Chunk(None) => true,
Message::Chunk(Some(_)) => false,
_ => panic!("error"),
}
}
}
}

716
actix-http/src/h1/payload.rs Normal file
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//! Payload stream
use bytes::{Bytes, BytesMut};
#[cfg(not(test))]
use futures::task::current as current_task;
use futures::task::Task;
use futures::{Async, Poll, Stream};
use std::cell::RefCell;
use std::cmp;
use std::collections::VecDeque;
use std::rc::{Rc, Weak};
use crate::error::PayloadError;
/// max buffer size 32k
pub(crate) const MAX_BUFFER_SIZE: usize = 32_768;
#[derive(Debug, PartialEq)]
pub(crate) enum PayloadStatus {
Read,
Pause,
Dropped,
}
/// Buffered stream of bytes chunks
///
/// Payload stores chunks in a vector. First chunk can be received with
/// `.readany()` method. Payload stream is not thread safe. Payload does not
/// notify current task when new data is available.
///
/// Payload stream can be used as `Response` body stream.
#[derive(Debug)]
pub struct Payload {
inner: Rc<RefCell<Inner>>,
}
impl Payload {
/// Create payload stream.
///
/// This method construct two objects responsible for bytes stream
/// generation.
///
/// * `PayloadSender` - *Sender* side of the stream
///
/// * `Payload` - *Receiver* side of the stream
pub fn create(eof: bool) -> (PayloadSender, Payload) {
let shared = Rc::new(RefCell::new(Inner::new(eof)));
(
PayloadSender {
inner: Rc::downgrade(&shared),
},
Payload { inner: shared },
)
}
/// Create empty payload
#[doc(hidden)]
pub fn empty() -> Payload {
Payload {
inner: Rc::new(RefCell::new(Inner::new(true))),
}
}
/// Length of the data in this payload
#[cfg(test)]
pub fn len(&self) -> usize {
self.inner.borrow().len()
}
/// Is payload empty
#[cfg(test)]
pub fn is_empty(&self) -> bool {
self.inner.borrow().len() == 0
}
/// Put unused data back to payload
#[inline]
pub fn unread_data(&mut self, data: Bytes) {
self.inner.borrow_mut().unread_data(data);
}
#[cfg(test)]
pub(crate) fn readall(&self) -> Option<Bytes> {
self.inner.borrow_mut().readall()
}
#[inline]
/// Set read buffer capacity
///
/// Default buffer capacity is 32Kb.
pub fn set_read_buffer_capacity(&mut self, cap: usize) {
self.inner.borrow_mut().capacity = cap;
}
}
impl Stream for Payload {
type Item = Bytes;
type Error = PayloadError;
#[inline]
fn poll(&mut self) -> Poll<Option<Bytes>, PayloadError> {
self.inner.borrow_mut().readany()
}
}
impl Clone for Payload {
fn clone(&self) -> Payload {
Payload {
inner: Rc::clone(&self.inner),
}
}
}
/// Payload writer interface.
pub(crate) trait PayloadWriter {
/// Set stream error.
fn set_error(&mut self, err: PayloadError);
/// Write eof into a stream which closes reading side of a stream.
fn feed_eof(&mut self);
/// Feed bytes into a payload stream
fn feed_data(&mut self, data: Bytes);
/// Need read data
fn need_read(&self) -> PayloadStatus;
}
/// Sender part of the payload stream
pub struct PayloadSender {
inner: Weak<RefCell<Inner>>,
}
impl PayloadWriter for PayloadSender {
#[inline]
fn set_error(&mut self, err: PayloadError) {
if let Some(shared) = self.inner.upgrade() {
shared.borrow_mut().set_error(err)
}
}
#[inline]
fn feed_eof(&mut self) {
if let Some(shared) = self.inner.upgrade() {
shared.borrow_mut().feed_eof()
}
}
#[inline]
fn feed_data(&mut self, data: Bytes) {
if let Some(shared) = self.inner.upgrade() {
shared.borrow_mut().feed_data(data)
}
}
#[inline]
fn need_read(&self) -> PayloadStatus {
// we check need_read only if Payload (other side) is alive,
// otherwise always return true (consume payload)
if let Some(shared) = self.inner.upgrade() {
if shared.borrow().need_read {
PayloadStatus::Read
} else {
#[cfg(not(test))]
{
if shared.borrow_mut().io_task.is_none() {
shared.borrow_mut().io_task = Some(current_task());
}
}
PayloadStatus::Pause
}
} else {
PayloadStatus::Dropped
}
}
}
#[derive(Debug)]
struct Inner {
len: usize,
eof: bool,
err: Option<PayloadError>,
need_read: bool,
items: VecDeque<Bytes>,
capacity: usize,
task: Option<Task>,
io_task: Option<Task>,
}
impl Inner {
fn new(eof: bool) -> Self {
Inner {
eof,
len: 0,
err: None,
items: VecDeque::new(),
need_read: true,
capacity: MAX_BUFFER_SIZE,
task: None,
io_task: None,
}
}
#[inline]
fn set_error(&mut self, err: PayloadError) {
self.err = Some(err);
}
#[inline]
fn feed_eof(&mut self) {
self.eof = true;
}
#[inline]
fn feed_data(&mut self, data: Bytes) {
self.len += data.len();
self.items.push_back(data);
self.need_read = self.len < self.capacity;
if let Some(task) = self.task.take() {
task.notify()
}
}
#[cfg(test)]
fn len(&self) -> usize {
self.len
}
#[cfg(test)]
pub(crate) fn readall(&mut self) -> Option<Bytes> {
let len = self.items.iter().map(|b| b.len()).sum();
if len > 0 {
let mut buf = BytesMut::with_capacity(len);
for item in &self.items {
buf.extend_from_slice(item);
}
self.items = VecDeque::new();
self.len = 0;
Some(buf.take().freeze())
} else {
self.need_read = true;
None
}
}
fn readany(&mut self) -> Poll<Option<Bytes>, PayloadError> {
if let Some(data) = self.items.pop_front() {
self.len -= data.len();
self.need_read = self.len < self.capacity;
#[cfg(not(test))]
{
if self.need_read && self.task.is_none() {
self.task = Some(current_task());
}
if let Some(task) = self.io_task.take() {
task.notify()
}
}
Ok(Async::Ready(Some(data)))
} else if let Some(err) = self.err.take() {
Err(err)
} else if self.eof {
Ok(Async::Ready(None))
} else {
self.need_read = true;
#[cfg(not(test))]
{
if self.task.is_none() {
self.task = Some(current_task());
}
if let Some(task) = self.io_task.take() {
task.notify()
}
}
Ok(Async::NotReady)
}
}
fn unread_data(&mut self, data: Bytes) {
self.len += data.len();
self.items.push_front(data);
}
}
/// Payload buffer
pub struct PayloadBuffer<S> {
len: usize,
items: VecDeque<Bytes>,
stream: S,
}
impl<S> PayloadBuffer<S>
where
S: Stream<Item = Bytes, Error = PayloadError>,
{
/// Create new `PayloadBuffer` instance
pub fn new(stream: S) -> Self {
PayloadBuffer {
len: 0,
items: VecDeque::new(),
stream,
}
}
/// Get mutable reference to an inner stream.
pub fn get_mut(&mut self) -> &mut S {
&mut self.stream
}
#[inline]
fn poll_stream(&mut self) -> Poll<bool, PayloadError> {
self.stream.poll().map(|res| match res {
Async::Ready(Some(data)) => {
self.len += data.len();
self.items.push_back(data);
Async::Ready(true)
}
Async::Ready(None) => Async::Ready(false),
Async::NotReady => Async::NotReady,
})
}
/// Read first available chunk of bytes
#[inline]
pub fn readany(&mut self) -> Poll<Option<Bytes>, PayloadError> {
if let Some(data) = self.items.pop_front() {
self.len -= data.len();
Ok(Async::Ready(Some(data)))
} else {
match self.poll_stream()? {
Async::Ready(true) => self.readany(),
Async::Ready(false) => Ok(Async::Ready(None)),
Async::NotReady => Ok(Async::NotReady),
}
}
}
/// Check if buffer contains enough bytes
#[inline]
pub fn can_read(&mut self, size: usize) -> Poll<Option<bool>, PayloadError> {
if size <= self.len {
Ok(Async::Ready(Some(true)))
} else {
match self.poll_stream()? {
Async::Ready(true) => self.can_read(size),
Async::Ready(false) => Ok(Async::Ready(None)),
Async::NotReady => Ok(Async::NotReady),
}
}
}
/// Return reference to the first chunk of data
#[inline]
pub fn get_chunk(&mut self) -> Poll<Option<&[u8]>, PayloadError> {
if self.items.is_empty() {
match self.poll_stream()? {
Async::Ready(true) => (),
Async::Ready(false) => return Ok(Async::Ready(None)),
Async::NotReady => return Ok(Async::NotReady),
}
}
match self.items.front().map(|c| c.as_ref()) {
Some(chunk) => Ok(Async::Ready(Some(chunk))),
None => Ok(Async::NotReady),
}
}
/// Read exact number of bytes
#[inline]
pub fn read_exact(&mut self, size: usize) -> Poll<Option<Bytes>, PayloadError> {
if size <= self.len {
self.len -= size;
let mut chunk = self.items.pop_front().unwrap();
if size < chunk.len() {
let buf = chunk.split_to(size);
self.items.push_front(chunk);
Ok(Async::Ready(Some(buf)))
} else if size == chunk.len() {
Ok(Async::Ready(Some(chunk)))
} else {
let mut buf = BytesMut::with_capacity(size);
buf.extend_from_slice(&chunk);
while buf.len() < size {
let mut chunk = self.items.pop_front().unwrap();
let rem = cmp::min(size - buf.len(), chunk.len());
buf.extend_from_slice(&chunk.split_to(rem));
if !chunk.is_empty() {
self.items.push_front(chunk);
}
}
Ok(Async::Ready(Some(buf.freeze())))
}
} else {
match self.poll_stream()? {
Async::Ready(true) => self.read_exact(size),
Async::Ready(false) => Ok(Async::Ready(None)),
Async::NotReady => Ok(Async::NotReady),
}
}
}
/// Remove specified amount if bytes from buffer
#[inline]
pub fn drop_bytes(&mut self, size: usize) {
if size <= self.len {
self.len -= size;
let mut len = 0;
while len < size {
let mut chunk = self.items.pop_front().unwrap();
let rem = cmp::min(size - len, chunk.len());
len += rem;
if rem < chunk.len() {
chunk.split_to(rem);
self.items.push_front(chunk);
}
}
}
}
/// Copy buffered data
pub fn copy(&mut self, size: usize) -> Poll<Option<BytesMut>, PayloadError> {
if size <= self.len {
let mut buf = BytesMut::with_capacity(size);
for chunk in &self.items {
if buf.len() < size {
let rem = cmp::min(size - buf.len(), chunk.len());
buf.extend_from_slice(&chunk[..rem]);
}
if buf.len() == size {
return Ok(Async::Ready(Some(buf)));
}
}
}
match self.poll_stream()? {
Async::Ready(true) => self.copy(size),
Async::Ready(false) => Ok(Async::Ready(None)),
Async::NotReady => Ok(Async::NotReady),
}
}
/// Read until specified ending
pub fn read_until(&mut self, line: &[u8]) -> Poll<Option<Bytes>, PayloadError> {
let mut idx = 0;
let mut num = 0;
let mut offset = 0;
let mut found = false;
let mut length = 0;
for no in 0..self.items.len() {
{
let chunk = &self.items[no];
for (pos, ch) in chunk.iter().enumerate() {
if *ch == line[idx] {
idx += 1;
if idx == line.len() {
num = no;
offset = pos + 1;
length += pos + 1;
found = true;
break;
}
} else {
idx = 0
}
}
if !found {
length += chunk.len()
}
}
if found {
let mut buf = BytesMut::with_capacity(length);
if num > 0 {
for _ in 0..num {
buf.extend_from_slice(&self.items.pop_front().unwrap());
}
}
if offset > 0 {
let mut chunk = self.items.pop_front().unwrap();
buf.extend_from_slice(&chunk.split_to(offset));
if !chunk.is_empty() {
self.items.push_front(chunk)
}
}
self.len -= length;
return Ok(Async::Ready(Some(buf.freeze())));
}
}
match self.poll_stream()? {
Async::Ready(true) => self.read_until(line),
Async::Ready(false) => Ok(Async::Ready(None)),
Async::NotReady => Ok(Async::NotReady),
}
}
/// Read bytes until new line delimiter
pub fn readline(&mut self) -> Poll<Option<Bytes>, PayloadError> {
self.read_until(b"\n")
}
/// Put unprocessed data back to the buffer
pub fn unprocessed(&mut self, data: Bytes) {
self.len += data.len();
self.items.push_front(data);
}
/// Get remaining data from the buffer
pub fn remaining(&mut self) -> Bytes {
self.items
.iter_mut()
.fold(BytesMut::new(), |mut b, c| {
b.extend_from_slice(c);
b
})
.freeze()
}
}
#[cfg(test)]
mod tests {
use super::*;
use actix_rt::Runtime;
use futures::future::{lazy, result};
#[test]
fn test_error() {
let err = PayloadError::Incomplete(None);
assert_eq!(
format!("{}", err),
"A payload reached EOF, but is not complete."
);
}
#[test]
fn test_basic() {
Runtime::new()
.unwrap()
.block_on(lazy(|| {
let (_, payload) = Payload::create(false);
let mut payload = PayloadBuffer::new(payload);
assert_eq!(payload.len, 0);
assert_eq!(Async::NotReady, payload.readany().ok().unwrap());
let res: Result<(), ()> = Ok(());
result(res)
}))
.unwrap();
}
#[test]
fn test_eof() {
Runtime::new()
.unwrap()
.block_on(lazy(|| {
let (mut sender, payload) = Payload::create(false);
let mut payload = PayloadBuffer::new(payload);
assert_eq!(Async::NotReady, payload.readany().ok().unwrap());
sender.feed_data(Bytes::from("data"));
sender.feed_eof();
assert_eq!(
Async::Ready(Some(Bytes::from("data"))),
payload.readany().ok().unwrap()
);
assert_eq!(payload.len, 0);
assert_eq!(Async::Ready(None), payload.readany().ok().unwrap());
let res: Result<(), ()> = Ok(());
result(res)
}))
.unwrap();
}
#[test]
fn test_err() {
Runtime::new()
.unwrap()
.block_on(lazy(|| {
let (mut sender, payload) = Payload::create(false);
let mut payload = PayloadBuffer::new(payload);
assert_eq!(Async::NotReady, payload.readany().ok().unwrap());
sender.set_error(PayloadError::Incomplete(None));
payload.readany().err().unwrap();
let res: Result<(), ()> = Ok(());
result(res)
}))
.unwrap();
}
#[test]
fn test_readany() {
Runtime::new()
.unwrap()
.block_on(lazy(|| {
let (mut sender, payload) = Payload::create(false);
let mut payload = PayloadBuffer::new(payload);
sender.feed_data(Bytes::from("line1"));
sender.feed_data(Bytes::from("line2"));
assert_eq!(
Async::Ready(Some(Bytes::from("line1"))),
payload.readany().ok().unwrap()
);
assert_eq!(payload.len, 0);
assert_eq!(
Async::Ready(Some(Bytes::from("line2"))),
payload.readany().ok().unwrap()
);
assert_eq!(payload.len, 0);
let res: Result<(), ()> = Ok(());
result(res)
}))
.unwrap();
}
#[test]
fn test_readexactly() {
Runtime::new()
.unwrap()
.block_on(lazy(|| {
let (mut sender, payload) = Payload::create(false);
let mut payload = PayloadBuffer::new(payload);
assert_eq!(Async::NotReady, payload.read_exact(2).ok().unwrap());
sender.feed_data(Bytes::from("line1"));
sender.feed_data(Bytes::from("line2"));
assert_eq!(
Async::Ready(Some(Bytes::from_static(b"li"))),
payload.read_exact(2).ok().unwrap()
);
assert_eq!(payload.len, 3);
assert_eq!(
Async::Ready(Some(Bytes::from_static(b"ne1l"))),
payload.read_exact(4).ok().unwrap()
);
assert_eq!(payload.len, 4);
sender.set_error(PayloadError::Incomplete(None));
payload.read_exact(10).err().unwrap();
let res: Result<(), ()> = Ok(());
result(res)
}))
.unwrap();
}
#[test]
fn test_readuntil() {
Runtime::new()
.unwrap()
.block_on(lazy(|| {
let (mut sender, payload) = Payload::create(false);
let mut payload = PayloadBuffer::new(payload);
assert_eq!(Async::NotReady, payload.read_until(b"ne").ok().unwrap());
sender.feed_data(Bytes::from("line1"));
sender.feed_data(Bytes::from("line2"));
assert_eq!(
Async::Ready(Some(Bytes::from("line"))),
payload.read_until(b"ne").ok().unwrap()
);
assert_eq!(payload.len, 1);
assert_eq!(
Async::Ready(Some(Bytes::from("1line2"))),
payload.read_until(b"2").ok().unwrap()
);
assert_eq!(payload.len, 0);
sender.set_error(PayloadError::Incomplete(None));
payload.read_until(b"b").err().unwrap();
let res: Result<(), ()> = Ok(());
result(res)
}))
.unwrap();
}
#[test]
fn test_unread_data() {
Runtime::new()
.unwrap()
.block_on(lazy(|| {
let (_, mut payload) = Payload::create(false);
payload.unread_data(Bytes::from("data"));
assert!(!payload.is_empty());
assert_eq!(payload.len(), 4);
assert_eq!(
Async::Ready(Some(Bytes::from("data"))),
payload.poll().ok().unwrap()
);
let res: Result<(), ()> = Ok(());
result(res)
}))
.unwrap();
}
}

257
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use std::fmt::Debug;
use std::marker::PhantomData;
use actix_codec::{AsyncRead, AsyncWrite, Framed};
use actix_server_config::{Io, ServerConfig as SrvConfig};
use actix_service::{IntoNewService, NewService, Service};
use actix_utils::cloneable::CloneableService;
use futures::future::{ok, FutureResult};
use futures::{try_ready, Async, Future, IntoFuture, Poll, Stream};
use crate::body::MessageBody;
use crate::config::{KeepAlive, ServiceConfig};
use crate::error::{DispatchError, ParseError};
use crate::request::Request;
use crate::response::Response;
use super::codec::Codec;
use super::dispatcher::Dispatcher;
use super::Message;
/// `NewService` implementation for HTTP1 transport
pub struct H1Service<T, P, S, B> {
srv: S,
cfg: ServiceConfig,
_t: PhantomData<(T, P, B)>,
}
impl<T, P, S, B> H1Service<T, P, S, B>
where
S: NewService<SrvConfig, Request = Request>,
S::Error: Debug,
S::Response: Into<Response<B>>,
S::Service: 'static,
B: MessageBody,
{
/// Create new `HttpService` instance with default config.
pub fn new<F: IntoNewService<S, SrvConfig>>(service: F) -> Self {
let cfg = ServiceConfig::new(KeepAlive::Timeout(5), 5000, 0);
H1Service {
cfg,
srv: service.into_new_service(),
_t: PhantomData,
}
}
/// Create new `HttpService` instance with config.
pub fn with_config<F: IntoNewService<S, SrvConfig>>(
cfg: ServiceConfig,
service: F,
) -> Self {
H1Service {
cfg,
srv: service.into_new_service(),
_t: PhantomData,
}
}
}
impl<T, P, S, B> NewService<SrvConfig> for H1Service<T, P, S, B>
where
T: AsyncRead + AsyncWrite,
S: NewService<SrvConfig, Request = Request>,
S::Error: Debug,
S::Response: Into<Response<B>>,
S::Service: 'static,
B: MessageBody,
{
type Request = Io<T, P>;
type Response = ();
type Error = DispatchError;
type InitError = S::InitError;
type Service = H1ServiceHandler<T, P, S::Service, B>;
type Future = H1ServiceResponse<T, P, S, B>;
fn new_service(&self, cfg: &SrvConfig) -> Self::Future {
H1ServiceResponse {
fut: self.srv.new_service(cfg).into_future(),
cfg: Some(self.cfg.clone()),
_t: PhantomData,
}
}
}
#[doc(hidden)]
pub struct H1ServiceResponse<T, P, S: NewService<SrvConfig, Request = Request>, B> {
fut: <S::Future as IntoFuture>::Future,
cfg: Option<ServiceConfig>,
_t: PhantomData<(T, P, B)>,
}
impl<T, P, S, B> Future for H1ServiceResponse<T, P, S, B>
where
T: AsyncRead + AsyncWrite,
S: NewService<SrvConfig, Request = Request>,
S::Service: 'static,
S::Error: Debug,
S::Response: Into<Response<B>>,
B: MessageBody,
{
type Item = H1ServiceHandler<T, P, S::Service, B>;
type Error = S::InitError;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
let service = try_ready!(self.fut.poll());
Ok(Async::Ready(H1ServiceHandler::new(
self.cfg.take().unwrap(),
service,
)))
}
}
/// `Service` implementation for HTTP1 transport
pub struct H1ServiceHandler<T, P, S: 'static, B> {
srv: CloneableService<S>,
cfg: ServiceConfig,
_t: PhantomData<(T, P, B)>,
}
impl<T, P, S, B> H1ServiceHandler<T, P, S, B>
where
S: Service<Request = Request>,
S::Error: Debug,
S::Response: Into<Response<B>>,
B: MessageBody,
{
fn new(cfg: ServiceConfig, srv: S) -> H1ServiceHandler<T, P, S, B> {
H1ServiceHandler {
srv: CloneableService::new(srv),
cfg,
_t: PhantomData,
}
}
}
impl<T, P, S, B> Service for H1ServiceHandler<T, P, S, B>
where
T: AsyncRead + AsyncWrite,
S: Service<Request = Request>,
S::Error: Debug,
S::Response: Into<Response<B>>,
B: MessageBody,
{
type Request = Io<T, P>;
type Response = ();
type Error = DispatchError;
type Future = Dispatcher<T, S, B>;
fn poll_ready(&mut self) -> Poll<(), Self::Error> {
self.srv.poll_ready().map_err(|e| {
log::error!("Http service readiness error: {:?}", e);
DispatchError::Service
})
}
fn call(&mut self, req: Self::Request) -> Self::Future {
Dispatcher::new(req.into_parts().0, self.cfg.clone(), self.srv.clone())
}
}
/// `NewService` implementation for `OneRequestService` service
#[derive(Default)]
pub struct OneRequest<T, P> {
config: ServiceConfig,
_t: PhantomData<(T, P)>,
}
impl<T, P> OneRequest<T, P>
where
T: AsyncRead + AsyncWrite,
{
/// Create new `H1SimpleService` instance.
pub fn new() -> Self {
OneRequest {
config: ServiceConfig::default(),
_t: PhantomData,
}
}
}
impl<T, P> NewService<SrvConfig> for OneRequest<T, P>
where
T: AsyncRead + AsyncWrite,
{
type Request = Io<T, P>;
type Response = (Request, Framed<T, Codec>);
type Error = ParseError;
type InitError = ();
type Service = OneRequestService<T, P>;
type Future = FutureResult<Self::Service, Self::InitError>;
fn new_service(&self, _: &SrvConfig) -> Self::Future {
ok(OneRequestService {
config: self.config.clone(),
_t: PhantomData,
})
}
}
/// `Service` implementation for HTTP1 transport. Reads one request and returns
/// request and framed object.
pub struct OneRequestService<T, P> {
config: ServiceConfig,
_t: PhantomData<(T, P)>,
}
impl<T, P> Service for OneRequestService<T, P>
where
T: AsyncRead + AsyncWrite,
{
type Request = Io<T, P>;
type Response = (Request, Framed<T, Codec>);
type Error = ParseError;
type Future = OneRequestServiceResponse<T>;
fn poll_ready(&mut self) -> Poll<(), Self::Error> {
Ok(Async::Ready(()))
}
fn call(&mut self, req: Self::Request) -> Self::Future {
OneRequestServiceResponse {
framed: Some(Framed::new(
req.into_parts().0,
Codec::new(self.config.clone()),
)),
}
}
}
#[doc(hidden)]
pub struct OneRequestServiceResponse<T>
where
T: AsyncRead + AsyncWrite,
{
framed: Option<Framed<T, Codec>>,
}
impl<T> Future for OneRequestServiceResponse<T>
where
T: AsyncRead + AsyncWrite,
{
type Item = (Request, Framed<T, Codec>);
type Error = ParseError;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
match self.framed.as_mut().unwrap().poll()? {
Async::Ready(Some(req)) => match req {
Message::Item(req) => {
Ok(Async::Ready((req, self.framed.take().unwrap())))
}
Message::Chunk(_) => unreachable!("Something is wrong"),
},
Async::Ready(None) => Err(ParseError::Incomplete),
Async::NotReady => Ok(Async::NotReady),
}
}
}

324
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@ -0,0 +1,324 @@
use std::collections::VecDeque;
use std::marker::PhantomData;
use std::time::Instant;
use std::{fmt, mem};
use actix_codec::{AsyncRead, AsyncWrite};
use actix_service::Service;
use actix_utils::cloneable::CloneableService;
use bitflags::bitflags;
use bytes::{Bytes, BytesMut};
use futures::{try_ready, Async, Future, Poll, Sink, Stream};
use h2::server::{Connection, SendResponse};
use h2::{RecvStream, SendStream};
use http::header::{
HeaderValue, ACCEPT_ENCODING, CONNECTION, CONTENT_LENGTH, DATE, TRANSFER_ENCODING,
};
use http::HttpTryFrom;
use log::{debug, error, trace};
use tokio_timer::Delay;
use crate::body::{Body, BodyLength, MessageBody, ResponseBody};
use crate::config::ServiceConfig;
use crate::error::{DispatchError, Error, ParseError, PayloadError, ResponseError};
use crate::message::ResponseHead;
use crate::payload::Payload;
use crate::request::Request;
use crate::response::Response;
const CHUNK_SIZE: usize = 16_384;
/// Dispatcher for HTTP/2 protocol
pub struct Dispatcher<
T: AsyncRead + AsyncWrite,
S: Service<Request = Request> + 'static,
B: MessageBody,
> {
service: CloneableService<S>,
connection: Connection<T, Bytes>,
config: ServiceConfig,
ka_expire: Instant,
ka_timer: Option<Delay>,
_t: PhantomData<B>,
}
impl<T, S, B> Dispatcher<T, S, B>
where
T: AsyncRead + AsyncWrite,
S: Service<Request = Request> + 'static,
S::Error: fmt::Debug,
S::Response: Into<Response<B>>,
B: MessageBody + 'static,
{
pub fn new(
service: CloneableService<S>,
connection: Connection<T, Bytes>,
config: ServiceConfig,
timeout: Option<Delay>,
) -> Self {
// let keepalive = config.keep_alive_enabled();
// let flags = if keepalive {
// Flags::KEEPALIVE | Flags::KEEPALIVE_ENABLED
// } else {
// Flags::empty()
// };
// keep-alive timer
let (ka_expire, ka_timer) = if let Some(delay) = timeout {
(delay.deadline(), Some(delay))
} else if let Some(delay) = config.keep_alive_timer() {
(delay.deadline(), Some(delay))
} else {
(config.now(), None)
};
Dispatcher {
service,
config,
ka_expire,
ka_timer,
connection,
_t: PhantomData,
}
}
}
impl<T, S, B> Future for Dispatcher<T, S, B>
where
T: AsyncRead + AsyncWrite,
S: Service<Request = Request> + 'static,
S::Error: fmt::Debug,
S::Response: Into<Response<B>>,
B: MessageBody + 'static,
{
type Item = ();
type Error = DispatchError;
#[inline]
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
loop {
match self.connection.poll()? {
Async::Ready(None) => return Ok(Async::Ready(())),
Async::Ready(Some((req, res))) => {
// update keep-alive expire
if self.ka_timer.is_some() {
if let Some(expire) = self.config.keep_alive_expire() {
self.ka_expire = expire;
}
}
let (parts, body) = req.into_parts();
let mut req = Request::with_payload(body.into());
let head = &mut req.head_mut();
head.uri = parts.uri;
head.method = parts.method;
head.version = parts.version;
head.headers = parts.headers;
tokio_current_thread::spawn(ServiceResponse::<S, B> {
state: ServiceResponseState::ServiceCall(
self.service.call(req),
Some(res),
),
config: self.config.clone(),
buffer: None,
})
}
Async::NotReady => return Ok(Async::NotReady),
}
}
}
}
struct ServiceResponse<S: Service, B> {
state: ServiceResponseState<S, B>,
config: ServiceConfig,
buffer: Option<Bytes>,
}
enum ServiceResponseState<S: Service, B> {
ServiceCall(S::Future, Option<SendResponse<Bytes>>),
SendPayload(SendStream<Bytes>, ResponseBody<B>),
}
impl<S, B> ServiceResponse<S, B>
where
S: Service<Request = Request> + 'static,
S::Error: fmt::Debug,
S::Response: Into<Response<B>>,
B: MessageBody + 'static,
{
fn prepare_response(
&self,
head: &ResponseHead,
length: &mut BodyLength,
) -> http::Response<()> {
let mut has_date = false;
let mut skip_len = length != &BodyLength::Stream;
let mut res = http::Response::new(());
*res.status_mut() = head.status;
*res.version_mut() = http::Version::HTTP_2;
// Content length
match head.status {
http::StatusCode::NO_CONTENT
| http::StatusCode::CONTINUE
| http::StatusCode::PROCESSING => *length = BodyLength::None,
http::StatusCode::SWITCHING_PROTOCOLS => {
skip_len = true;
*length = BodyLength::Stream;
}
_ => (),
}
let _ = match length {
BodyLength::None | BodyLength::Stream => None,
BodyLength::Empty => res
.headers_mut()
.insert(CONTENT_LENGTH, HeaderValue::from_static("0")),
BodyLength::Sized(len) => res.headers_mut().insert(
CONTENT_LENGTH,
HeaderValue::try_from(format!("{}", len)).unwrap(),
),
BodyLength::Sized64(len) => res.headers_mut().insert(
CONTENT_LENGTH,
HeaderValue::try_from(format!("{}", len)).unwrap(),
),
};
// copy headers
for (key, value) in head.headers.iter() {
match *key {
CONNECTION | TRANSFER_ENCODING => continue, // http2 specific
CONTENT_LENGTH if skip_len => continue,
DATE => has_date = true,
_ => (),
}
res.headers_mut().append(key, value.clone());
}
// set date header
if !has_date {
let mut bytes = BytesMut::with_capacity(29);
self.config.set_date_header(&mut bytes);
res.headers_mut()
.insert(DATE, HeaderValue::try_from(bytes.freeze()).unwrap());
}
res
}
}
impl<S, B> Future for ServiceResponse<S, B>
where
S: Service<Request = Request> + 'static,
S::Error: fmt::Debug,
S::Response: Into<Response<B>>,
B: MessageBody + 'static,
{
type Item = ();
type Error = ();
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
match self.state {
ServiceResponseState::ServiceCall(ref mut call, ref mut send) => {
match call.poll() {
Ok(Async::Ready(res)) => {
let (res, body) = res.into().replace_body(());
let mut send = send.take().unwrap();
let mut length = body.length();
let h2_res = self.prepare_response(res.head(), &mut length);
let stream = send
.send_response(h2_res, length.is_eof())
.map_err(|e| {
trace!("Error sending h2 response: {:?}", e);
})?;
if length.is_eof() {
Ok(Async::Ready(()))
} else {
self.state = ServiceResponseState::SendPayload(stream, body);
self.poll()
}
}
Ok(Async::NotReady) => Ok(Async::NotReady),
Err(_e) => {
let res: Response = Response::InternalServerError().finish();
let (res, body) = res.replace_body(());
let mut send = send.take().unwrap();
let mut length = body.length();
let h2_res = self.prepare_response(res.head(), &mut length);
let stream = send
.send_response(h2_res, length.is_eof())
.map_err(|e| {
trace!("Error sending h2 response: {:?}", e);
})?;
if length.is_eof() {
Ok(Async::Ready(()))
} else {
self.state = ServiceResponseState::SendPayload(
stream,
body.into_body(),
);
self.poll()
}
}
}
}
ServiceResponseState::SendPayload(ref mut stream, ref mut body) => loop {
loop {
if let Some(ref mut buffer) = self.buffer {
match stream.poll_capacity().map_err(|e| warn!("{:?}", e))? {
Async::NotReady => return Ok(Async::NotReady),
Async::Ready(None) => return Ok(Async::Ready(())),
Async::Ready(Some(cap)) => {
let len = buffer.len();
let bytes = buffer.split_to(std::cmp::min(cap, len));
if let Err(e) = stream.send_data(bytes, false) {
warn!("{:?}", e);
return Err(());
} else if !buffer.is_empty() {
let cap = std::cmp::min(buffer.len(), CHUNK_SIZE);
stream.reserve_capacity(cap);
} else {
self.buffer.take();
}
}
}
} else {
match body.poll_next() {
Ok(Async::NotReady) => {
return Ok(Async::NotReady);
}
Ok(Async::Ready(None)) => {
if let Err(e) = stream.send_data(Bytes::new(), true) {
warn!("{:?}", e);
return Err(());
} else {
return Ok(Async::Ready(()));
}
}
Ok(Async::Ready(Some(chunk))) => {
stream.reserve_capacity(std::cmp::min(
chunk.len(),
CHUNK_SIZE,
));
self.buffer = Some(chunk);
}
Err(e) => {
error!("Response payload stream error: {:?}", e);
return Err(());
}
}
}
}
},
}
}
}

46
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#![allow(dead_code, unused_imports)]
use std::fmt;
use bytes::Bytes;
use futures::{Async, Poll, Stream};
use h2::RecvStream;
mod dispatcher;
mod service;
pub use self::dispatcher::Dispatcher;
pub use self::service::H2Service;
use crate::error::PayloadError;
/// H2 receive stream
pub struct Payload {
pl: RecvStream,
}
impl Payload {
pub(crate) fn new(pl: RecvStream) -> Self {
Self { pl }
}
}
impl Stream for Payload {
type Item = Bytes;
type Error = PayloadError;
fn poll(&mut self) -> Poll<Option<Self::Item>, Self::Error> {
match self.pl.poll() {
Ok(Async::Ready(Some(chunk))) => {
let len = chunk.len();
if let Err(err) = self.pl.release_capacity().release_capacity(len) {
Err(err.into())
} else {
Ok(Async::Ready(Some(chunk)))
}
}
Ok(Async::Ready(None)) => Ok(Async::Ready(None)),
Ok(Async::NotReady) => Ok(Async::NotReady),
Err(err) => Err(err.into()),
}
}
}

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use std::fmt::Debug;
use std::marker::PhantomData;
use std::{io, net};
use actix_codec::{AsyncRead, AsyncWrite, Framed};
use actix_server_config::{Io, ServerConfig as SrvConfig};
use actix_service::{IntoNewService, NewService, Service};
use actix_utils::cloneable::CloneableService;
use bytes::Bytes;
use futures::future::{ok, FutureResult};
use futures::{try_ready, Async, Future, IntoFuture, Poll, Stream};
use h2::server::{self, Connection, Handshake};
use h2::RecvStream;
use log::error;
use crate::body::MessageBody;
use crate::config::{KeepAlive, ServiceConfig};
use crate::error::{DispatchError, Error, ParseError, ResponseError};
use crate::payload::Payload;
use crate::request::Request;
use crate::response::Response;
use super::dispatcher::Dispatcher;
/// `NewService` implementation for HTTP2 transport
pub struct H2Service<T, P, S, B> {
srv: S,
cfg: ServiceConfig,
_t: PhantomData<(T, P, B)>,
}
impl<T, P, S, B> H2Service<T, P, S, B>
where
S: NewService<SrvConfig, Request = Request>,
S::Service: 'static,
S::Error: Debug + 'static,
S::Response: Into<Response<B>>,
B: MessageBody + 'static,
{
/// Create new `HttpService` instance.
pub fn new<F: IntoNewService<S, SrvConfig>>(service: F) -> Self {
let cfg = ServiceConfig::new(KeepAlive::Timeout(5), 5000, 0);
H2Service {
cfg,
srv: service.into_new_service(),
_t: PhantomData,
}
}
/// Create new `HttpService` instance with config.
pub fn with_config<F: IntoNewService<S, SrvConfig>>(
cfg: ServiceConfig,
service: F,
) -> Self {
H2Service {
cfg,
srv: service.into_new_service(),
_t: PhantomData,
}
}
}
impl<T, P, S, B> NewService<SrvConfig> for H2Service<T, P, S, B>
where
T: AsyncRead + AsyncWrite,
S: NewService<SrvConfig, Request = Request>,
S::Service: 'static,
S::Error: Debug,
S::Response: Into<Response<B>>,
B: MessageBody + 'static,
{
type Request = Io<T, P>;
type Response = ();
type Error = DispatchError;
type InitError = S::InitError;
type Service = H2ServiceHandler<T, P, S::Service, B>;
type Future = H2ServiceResponse<T, P, S, B>;
fn new_service(&self, cfg: &SrvConfig) -> Self::Future {
H2ServiceResponse {
fut: self.srv.new_service(cfg).into_future(),
cfg: Some(self.cfg.clone()),
_t: PhantomData,
}
}
}
#[doc(hidden)]
pub struct H2ServiceResponse<T, P, S: NewService<SrvConfig, Request = Request>, B> {
fut: <S::Future as IntoFuture>::Future,
cfg: Option<ServiceConfig>,
_t: PhantomData<(T, P, B)>,
}
impl<T, P, S, B> Future for H2ServiceResponse<T, P, S, B>
where
T: AsyncRead + AsyncWrite,
S: NewService<SrvConfig, Request = Request>,
S::Service: 'static,
S::Response: Into<Response<B>>,
S::Error: Debug,
B: MessageBody + 'static,
{
type Item = H2ServiceHandler<T, P, S::Service, B>;
type Error = S::InitError;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
let service = try_ready!(self.fut.poll());
Ok(Async::Ready(H2ServiceHandler::new(
self.cfg.take().unwrap(),
service,
)))
}
}
/// `Service` implementation for http/2 transport
pub struct H2ServiceHandler<T, P, S: 'static, B> {
srv: CloneableService<S>,
cfg: ServiceConfig,
_t: PhantomData<(T, P, B)>,
}
impl<T, P, S, B> H2ServiceHandler<T, P, S, B>
where
S: Service<Request = Request> + 'static,
S::Error: Debug,
S::Response: Into<Response<B>>,
B: MessageBody + 'static,
{
fn new(cfg: ServiceConfig, srv: S) -> H2ServiceHandler<T, P, S, B> {
H2ServiceHandler {
cfg,
srv: CloneableService::new(srv),
_t: PhantomData,
}
}
}
impl<T, P, S, B> Service for H2ServiceHandler<T, P, S, B>
where
T: AsyncRead + AsyncWrite,
S: Service<Request = Request> + 'static,
S::Error: Debug,
S::Response: Into<Response<B>>,
B: MessageBody + 'static,
{
type Request = Io<T, P>;
type Response = ();
type Error = DispatchError;
type Future = H2ServiceHandlerResponse<T, S, B>;
fn poll_ready(&mut self) -> Poll<(), Self::Error> {
self.srv.poll_ready().map_err(|e| {
error!("Service readiness error: {:?}", e);
DispatchError::Service
})
}
fn call(&mut self, req: Self::Request) -> Self::Future {
H2ServiceHandlerResponse {
state: State::Handshake(
Some(self.srv.clone()),
Some(self.cfg.clone()),
server::handshake(req.into_parts().0),
),
}
}
}
enum State<
T: AsyncRead + AsyncWrite,
S: Service<Request = Request> + 'static,
B: MessageBody,
> {
Incoming(Dispatcher<T, S, B>),
Handshake(
Option<CloneableService<S>>,
Option<ServiceConfig>,
Handshake<T, Bytes>,
),
}
pub struct H2ServiceHandlerResponse<T, S, B>
where
T: AsyncRead + AsyncWrite,
S: Service<Request = Request> + 'static,
S::Error: Debug,
S::Response: Into<Response<B>>,
B: MessageBody + 'static,
{
state: State<T, S, B>,
}
impl<T, S, B> Future for H2ServiceHandlerResponse<T, S, B>
where
T: AsyncRead + AsyncWrite,
S: Service<Request = Request> + 'static,
S::Error: Debug,
S::Response: Into<Response<B>>,
B: MessageBody,
{
type Item = ();
type Error = DispatchError;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
match self.state {
State::Incoming(ref mut disp) => disp.poll(),
State::Handshake(ref mut srv, ref mut config, ref mut handshake) => {
match handshake.poll() {
Ok(Async::Ready(conn)) => {
self.state = State::Incoming(Dispatcher::new(
srv.take().unwrap(),
conn,
config.take().unwrap(),
None,
));
self.poll()
}
Ok(Async::NotReady) => Ok(Async::NotReady),
Err(err) => {
trace!("H2 handshake error: {}", err);
return Err(err.into());
}
}
}
}
}
}

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use mime::Mime;
use crate::header::{qitem, QualityItem};
use crate::http::header;
header! {
/// `Accept` header, defined in [RFC7231](http://tools.ietf.org/html/rfc7231#section-5.3.2)
///
/// The `Accept` header field can be used by user agents to specify
/// response media types that are acceptable. Accept header fields can
/// be used to indicate that the request is specifically limited to a
/// small set of desired types, as in the case of a request for an
/// in-line image
///
/// # ABNF
///
/// ```text
/// Accept = #( media-range [ accept-params ] )
///
/// media-range = ( "*/*"
/// / ( type "/" "*" )
/// / ( type "/" subtype )
/// ) *( OWS ";" OWS parameter )
/// accept-params = weight *( accept-ext )
/// accept-ext = OWS ";" OWS token [ "=" ( token / quoted-string ) ]
/// ```
///
/// # Example values
/// * `audio/*; q=0.2, audio/basic`
/// * `text/plain; q=0.5, text/html, text/x-dvi; q=0.8, text/x-c`
///
/// # Examples
/// ```rust
/// # extern crate actix_http;
/// extern crate mime;
/// use actix_http::Response;
/// use actix_http::http::header::{Accept, qitem};
///
/// # fn main() {
/// let mut builder = Response::Ok();
///
/// builder.set(
/// Accept(vec![
/// qitem(mime::TEXT_HTML),
/// ])
/// );
/// # }
/// ```
///
/// ```rust
/// # extern crate actix_http;
/// extern crate mime;
/// use actix_http::Response;
/// use actix_http::http::header::{Accept, qitem};
///
/// # fn main() {
/// let mut builder = Response::Ok();
///
/// builder.set(
/// Accept(vec![
/// qitem(mime::APPLICATION_JSON),
/// ])
/// );
/// # }
/// ```
///
/// ```rust
/// # extern crate actix_http;
/// extern crate mime;
/// use actix_http::Response;
/// use actix_http::http::header::{Accept, QualityItem, q, qitem};
///
/// # fn main() {
/// let mut builder = Response::Ok();
///
/// builder.set(
/// Accept(vec![
/// qitem(mime::TEXT_HTML),
/// qitem("application/xhtml+xml".parse().unwrap()),
/// QualityItem::new(
/// mime::TEXT_XML,
/// q(900)
/// ),
/// qitem("image/webp".parse().unwrap()),
/// QualityItem::new(
/// mime::STAR_STAR,
/// q(800)
/// ),
/// ])
/// );
/// # }
/// ```
(Accept, header::ACCEPT) => (QualityItem<Mime>)+
test_accept {
// Tests from the RFC
test_header!(
test1,
vec![b"audio/*; q=0.2, audio/basic"],
Some(HeaderField(vec![
QualityItem::new("audio/*".parse().unwrap(), q(200)),
qitem("audio/basic".parse().unwrap()),
])));
test_header!(
test2,
vec![b"text/plain; q=0.5, text/html, text/x-dvi; q=0.8, text/x-c"],
Some(HeaderField(vec![
QualityItem::new(mime::TEXT_PLAIN, q(500)),
qitem(mime::TEXT_HTML),
QualityItem::new(
"text/x-dvi".parse().unwrap(),
q(800)),
qitem("text/x-c".parse().unwrap()),
])));
// Custom tests
test_header!(
test3,
vec![b"text/plain; charset=utf-8"],
Some(Accept(vec![
qitem(mime::TEXT_PLAIN_UTF_8),
])));
test_header!(
test4,
vec![b"text/plain; charset=utf-8; q=0.5"],
Some(Accept(vec![
QualityItem::new(mime::TEXT_PLAIN_UTF_8,
q(500)),
])));
#[test]
fn test_fuzzing1() {
use crate::test::TestRequest;
let req = TestRequest::with_header(crate::header::ACCEPT, "chunk#;e").finish();
let header = Accept::parse(&req);
assert!(header.is_ok());
}
}
}
impl Accept {
/// A constructor to easily create `Accept: */*`.
pub fn star() -> Accept {
Accept(vec![qitem(mime::STAR_STAR)])
}
/// A constructor to easily create `Accept: application/json`.
pub fn json() -> Accept {
Accept(vec![qitem(mime::APPLICATION_JSON)])
}
/// A constructor to easily create `Accept: text/*`.
pub fn text() -> Accept {
Accept(vec![qitem(mime::TEXT_STAR)])
}
/// A constructor to easily create `Accept: image/*`.
pub fn image() -> Accept {
Accept(vec![qitem(mime::IMAGE_STAR)])
}
}

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use crate::header::{Charset, QualityItem, ACCEPT_CHARSET};
header! {
/// `Accept-Charset` header, defined in
/// [RFC7231](http://tools.ietf.org/html/rfc7231#section-5.3.3)
///
/// The `Accept-Charset` header field can be sent by a user agent to
/// indicate what charsets are acceptable in textual response content.
/// This field allows user agents capable of understanding more
/// comprehensive or special-purpose charsets to signal that capability
/// to an origin server that is capable of representing information in
/// those charsets.
///
/// # ABNF
///
/// ```text
/// Accept-Charset = 1#( ( charset / "*" ) [ weight ] )
/// ```
///
/// # Example values
/// * `iso-8859-5, unicode-1-1;q=0.8`
///
/// # Examples
/// ```rust
/// # extern crate actix_http;
/// use actix_http::Response;
/// use actix_http::http::header::{AcceptCharset, Charset, qitem};
///
/// # fn main() {
/// let mut builder = Response::Ok();
/// builder.set(
/// AcceptCharset(vec![qitem(Charset::Us_Ascii)])
/// );
/// # }
/// ```
/// ```rust
/// # extern crate actix_http;
/// use actix_http::Response;
/// use actix_http::http::header::{AcceptCharset, Charset, q, QualityItem};
///
/// # fn main() {
/// let mut builder = Response::Ok();
/// builder.set(
/// AcceptCharset(vec![
/// QualityItem::new(Charset::Us_Ascii, q(900)),
/// QualityItem::new(Charset::Iso_8859_10, q(200)),
/// ])
/// );
/// # }
/// ```
/// ```rust
/// # extern crate actix_http;
/// use actix_http::Response;
/// use actix_http::http::header::{AcceptCharset, Charset, qitem};
///
/// # fn main() {
/// let mut builder = Response::Ok();
/// builder.set(
/// AcceptCharset(vec![qitem(Charset::Ext("utf-8".to_owned()))])
/// );
/// # }
/// ```
(AcceptCharset, ACCEPT_CHARSET) => (QualityItem<Charset>)+
test_accept_charset {
/// Test case from RFC
test_header!(test1, vec![b"iso-8859-5, unicode-1-1;q=0.8"]);
}
}

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use header::{Encoding, QualityItem};
header! {
/// `Accept-Encoding` header, defined in
/// [RFC7231](http://tools.ietf.org/html/rfc7231#section-5.3.4)
///
/// The `Accept-Encoding` header field can be used by user agents to
/// indicate what response content-codings are
/// acceptable in the response. An `identity` token is used as a synonym
/// for "no encoding" in order to communicate when no encoding is
/// preferred.
///
/// # ABNF
///
/// ```text
/// Accept-Encoding = #( codings [ weight ] )
/// codings = content-coding / "identity" / "*"
/// ```
///
/// # Example values
/// * `compress, gzip`
/// * ``
/// * `*`
/// * `compress;q=0.5, gzip;q=1`
/// * `gzip;q=1.0, identity; q=0.5, *;q=0`
///
/// # Examples
/// ```
/// use hyper::header::{Headers, AcceptEncoding, Encoding, qitem};
///
/// let mut headers = Headers::new();
/// headers.set(
/// AcceptEncoding(vec![qitem(Encoding::Chunked)])
/// );
/// ```
/// ```
/// use hyper::header::{Headers, AcceptEncoding, Encoding, qitem};
///
/// let mut headers = Headers::new();
/// headers.set(
/// AcceptEncoding(vec![
/// qitem(Encoding::Chunked),
/// qitem(Encoding::Gzip),
/// qitem(Encoding::Deflate),
/// ])
/// );
/// ```
/// ```
/// use hyper::header::{Headers, AcceptEncoding, Encoding, QualityItem, q, qitem};
///
/// let mut headers = Headers::new();
/// headers.set(
/// AcceptEncoding(vec![
/// qitem(Encoding::Chunked),
/// QualityItem::new(Encoding::Gzip, q(600)),
/// QualityItem::new(Encoding::EncodingExt("*".to_owned()), q(0)),
/// ])
/// );
/// ```
(AcceptEncoding, "Accept-Encoding") => (QualityItem<Encoding>)*
test_accept_encoding {
// From the RFC
test_header!(test1, vec![b"compress, gzip"]);
test_header!(test2, vec![b""], Some(AcceptEncoding(vec![])));
test_header!(test3, vec![b"*"]);
// Note: Removed quality 1 from gzip
test_header!(test4, vec![b"compress;q=0.5, gzip"]);
// Note: Removed quality 1 from gzip
test_header!(test5, vec![b"gzip, identity; q=0.5, *;q=0"]);
}
}

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use crate::header::{QualityItem, ACCEPT_LANGUAGE};
use language_tags::LanguageTag;
header! {
/// `Accept-Language` header, defined in
/// [RFC7231](http://tools.ietf.org/html/rfc7231#section-5.3.5)
///
/// The `Accept-Language` header field can be used by user agents to
/// indicate the set of natural languages that are preferred in the
/// response.
///
/// # ABNF
///
/// ```text
/// Accept-Language = 1#( language-range [ weight ] )
/// language-range = <language-range, see [RFC4647], Section 2.1>
/// ```
///
/// # Example values
/// * `da, en-gb;q=0.8, en;q=0.7`
/// * `en-us;q=1.0, en;q=0.5, fr`
///
/// # Examples
///
/// ```rust
/// # extern crate actix_http;
/// # extern crate language_tags;
/// use actix_http::Response;
/// use actix_http::http::header::{AcceptLanguage, LanguageTag, qitem};
///
/// # fn main() {
/// let mut builder = Response::Ok();
/// let mut langtag: LanguageTag = Default::default();
/// langtag.language = Some("en".to_owned());
/// langtag.region = Some("US".to_owned());
/// builder.set(
/// AcceptLanguage(vec![
/// qitem(langtag),
/// ])
/// );
/// # }
/// ```
///
/// ```rust
/// # extern crate actix_http;
/// # #[macro_use] extern crate language_tags;
/// use actix_http::Response;
/// use actix_http::http::header::{AcceptLanguage, QualityItem, q, qitem};
/// #
/// # fn main() {
/// let mut builder = Response::Ok();
/// builder.set(
/// AcceptLanguage(vec![
/// qitem(langtag!(da)),
/// QualityItem::new(langtag!(en;;;GB), q(800)),
/// QualityItem::new(langtag!(en), q(700)),
/// ])
/// );
/// # }
/// ```
(AcceptLanguage, ACCEPT_LANGUAGE) => (QualityItem<LanguageTag>)+
test_accept_language {
// From the RFC
test_header!(test1, vec![b"da, en-gb;q=0.8, en;q=0.7"]);
// Own test
test_header!(
test2, vec![b"en-US, en; q=0.5, fr"],
Some(AcceptLanguage(vec![
qitem("en-US".parse().unwrap()),
QualityItem::new("en".parse().unwrap(), q(500)),
qitem("fr".parse().unwrap()),
])));
}
}

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use http::Method;
use http::header;
header! {
/// `Allow` header, defined in [RFC7231](http://tools.ietf.org/html/rfc7231#section-7.4.1)
///
/// The `Allow` header field lists the set of methods advertised as
/// supported by the target resource. The purpose of this field is
/// strictly to inform the recipient of valid request methods associated
/// with the resource.
///
/// # ABNF
///
/// ```text
/// Allow = #method
/// ```
///
/// # Example values
/// * `GET, HEAD, PUT`
/// * `OPTIONS, GET, PUT, POST, DELETE, HEAD, TRACE, CONNECT, PATCH, fOObAr`
/// * ``
///
/// # Examples
///
/// ```rust
/// # extern crate http;
/// # extern crate actix_http;
/// use actix_http::Response;
/// use actix_http::http::header::Allow;
/// use http::Method;
///
/// # fn main() {
/// let mut builder = Response::Ok();
/// builder.set(
/// Allow(vec![Method::GET])
/// );
/// # }
/// ```
///
/// ```rust
/// # extern crate http;
/// # extern crate actix_http;
/// use actix_http::Response;
/// use actix_http::http::header::Allow;
/// use http::Method;
///
/// # fn main() {
/// let mut builder = Response::Ok();
/// builder.set(
/// Allow(vec![
/// Method::GET,
/// Method::POST,
/// Method::PATCH,
/// ])
/// );
/// # }
/// ```
(Allow, header::ALLOW) => (Method)*
test_allow {
// From the RFC
test_header!(
test1,
vec![b"GET, HEAD, PUT"],
Some(HeaderField(vec![Method::GET, Method::HEAD, Method::PUT])));
// Own tests
test_header!(
test2,
vec![b"OPTIONS, GET, PUT, POST, DELETE, HEAD, TRACE, CONNECT, PATCH"],
Some(HeaderField(vec![
Method::OPTIONS,
Method::GET,
Method::PUT,
Method::POST,
Method::DELETE,
Method::HEAD,
Method::TRACE,
Method::CONNECT,
Method::PATCH])));
test_header!(
test3,
vec![b""],
Some(HeaderField(Vec::<Method>::new())));
}
}

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use std::fmt::{self, Write};
use std::str::FromStr;
use http::header;
use crate::header::{
fmt_comma_delimited, from_comma_delimited, Header, IntoHeaderValue, Writer,
};
/// `Cache-Control` header, defined in [RFC7234](https://tools.ietf.org/html/rfc7234#section-5.2)
///
/// The `Cache-Control` header field is used to specify directives for
/// caches along the request/response chain. Such cache directives are
/// unidirectional in that the presence of a directive in a request does
/// not imply that the same directive is to be given in the response.
///
/// # ABNF
///
/// ```text
/// Cache-Control = 1#cache-directive
/// cache-directive = token [ "=" ( token / quoted-string ) ]
/// ```
///
/// # Example values
///
/// * `no-cache`
/// * `private, community="UCI"`
/// * `max-age=30`
///
/// # Examples
/// ```rust
/// use actix_http::Response;
/// use actix_http::http::header::{CacheControl, CacheDirective};
///
/// let mut builder = Response::Ok();
/// builder.set(CacheControl(vec![CacheDirective::MaxAge(86400u32)]));
/// ```
///
/// ```rust
/// use actix_http::Response;
/// use actix_http::http::header::{CacheControl, CacheDirective};
///
/// let mut builder = Response::Ok();
/// builder.set(CacheControl(vec![
/// CacheDirective::NoCache,
/// CacheDirective::Private,
/// CacheDirective::MaxAge(360u32),
/// CacheDirective::Extension("foo".to_owned(), Some("bar".to_owned())),
/// ]));
/// ```
#[derive(PartialEq, Clone, Debug)]
pub struct CacheControl(pub Vec<CacheDirective>);
__hyper__deref!(CacheControl => Vec<CacheDirective>);
//TODO: this could just be the header! macro
impl Header for CacheControl {
fn name() -> header::HeaderName {
header::CACHE_CONTROL
}
#[inline]
fn parse<T>(msg: &T) -> Result<Self, crate::error::ParseError>
where
T: crate::HttpMessage,
{
let directives = from_comma_delimited(msg.headers().get_all(Self::name()))?;
if !directives.is_empty() {
Ok(CacheControl(directives))
} else {
Err(crate::error::ParseError::Header)
}
}
}
impl fmt::Display for CacheControl {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
fmt_comma_delimited(f, &self[..])
}
}
impl IntoHeaderValue for CacheControl {
type Error = header::InvalidHeaderValueBytes;
fn try_into(self) -> Result<header::HeaderValue, Self::Error> {
let mut writer = Writer::new();
let _ = write!(&mut writer, "{}", self);
header::HeaderValue::from_shared(writer.take())
}
}
/// `CacheControl` contains a list of these directives.
#[derive(PartialEq, Clone, Debug)]
pub enum CacheDirective {
/// "no-cache"
NoCache,
/// "no-store"
NoStore,
/// "no-transform"
NoTransform,
/// "only-if-cached"
OnlyIfCached,
// request directives
/// "max-age=delta"
MaxAge(u32),
/// "max-stale=delta"
MaxStale(u32),
/// "min-fresh=delta"
MinFresh(u32),
// response directives
/// "must-revalidate"
MustRevalidate,
/// "public"
Public,
/// "private"
Private,
/// "proxy-revalidate"
ProxyRevalidate,
/// "s-maxage=delta"
SMaxAge(u32),
/// Extension directives. Optionally include an argument.
Extension(String, Option<String>),
}
impl fmt::Display for CacheDirective {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
use self::CacheDirective::*;
fmt::Display::fmt(
match *self {
NoCache => "no-cache",
NoStore => "no-store",
NoTransform => "no-transform",
OnlyIfCached => "only-if-cached",
MaxAge(secs) => return write!(f, "max-age={}", secs),
MaxStale(secs) => return write!(f, "max-stale={}", secs),
MinFresh(secs) => return write!(f, "min-fresh={}", secs),
MustRevalidate => "must-revalidate",
Public => "public",
Private => "private",
ProxyRevalidate => "proxy-revalidate",
SMaxAge(secs) => return write!(f, "s-maxage={}", secs),
Extension(ref name, None) => &name[..],
Extension(ref name, Some(ref arg)) => {
return write!(f, "{}={}", name, arg);
}
},
f,
)
}
}
impl FromStr for CacheDirective {
type Err = Option<<u32 as FromStr>::Err>;
fn from_str(s: &str) -> Result<CacheDirective, Option<<u32 as FromStr>::Err>> {
use self::CacheDirective::*;
match s {
"no-cache" => Ok(NoCache),
"no-store" => Ok(NoStore),
"no-transform" => Ok(NoTransform),
"only-if-cached" => Ok(OnlyIfCached),
"must-revalidate" => Ok(MustRevalidate),
"public" => Ok(Public),
"private" => Ok(Private),
"proxy-revalidate" => Ok(ProxyRevalidate),
"" => Err(None),
_ => match s.find('=') {
Some(idx) if idx + 1 < s.len() => {
match (&s[..idx], (&s[idx + 1..]).trim_matches('"')) {
("max-age", secs) => secs.parse().map(MaxAge).map_err(Some),
("max-stale", secs) => secs.parse().map(MaxStale).map_err(Some),
("min-fresh", secs) => secs.parse().map(MinFresh).map_err(Some),
("s-maxage", secs) => secs.parse().map(SMaxAge).map_err(Some),
(left, right) => {
Ok(Extension(left.to_owned(), Some(right.to_owned())))
}
}
}
Some(_) => Err(None),
None => Ok(Extension(s.to_owned(), None)),
},
}
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::header::Header;
use crate::test::TestRequest;
#[test]
fn test_parse_multiple_headers() {
let req = TestRequest::with_header(header::CACHE_CONTROL, "no-cache, private")
.finish();
let cache = Header::parse(&req);
assert_eq!(
cache.ok(),
Some(CacheControl(vec![
CacheDirective::NoCache,
CacheDirective::Private,
]))
)
}
#[test]
fn test_parse_argument() {
let req =
TestRequest::with_header(header::CACHE_CONTROL, "max-age=100, private")
.finish();
let cache = Header::parse(&req);
assert_eq!(
cache.ok(),
Some(CacheControl(vec![
CacheDirective::MaxAge(100),
CacheDirective::Private,
]))
)
}
#[test]
fn test_parse_quote_form() {
let req =
TestRequest::with_header(header::CACHE_CONTROL, "max-age=\"200\"").finish();
let cache = Header::parse(&req);
assert_eq!(
cache.ok(),
Some(CacheControl(vec![CacheDirective::MaxAge(200)]))
)
}
#[test]
fn test_parse_extension() {
let req =
TestRequest::with_header(header::CACHE_CONTROL, "foo, bar=baz").finish();
let cache = Header::parse(&req);
assert_eq!(
cache.ok(),
Some(CacheControl(vec![
CacheDirective::Extension("foo".to_owned(), None),
CacheDirective::Extension("bar".to_owned(), Some("baz".to_owned())),
]))
)
}
#[test]
fn test_parse_bad_syntax() {
let req = TestRequest::with_header(header::CACHE_CONTROL, "foo=").finish();
let cache: Result<CacheControl, _> = Header::parse(&req);
assert_eq!(cache.ok(), None)
}
}

918
actix-http/src/header/common/content_disposition.rs Normal file
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@ -0,0 +1,918 @@
// # References
//
// "The Content-Disposition Header Field" https://www.ietf.org/rfc/rfc2183.txt
// "The Content-Disposition Header Field in the Hypertext Transfer Protocol (HTTP)" https://www.ietf.org/rfc/rfc6266.txt
// "Returning Values from Forms: multipart/form-data" https://www.ietf.org/rfc/rfc7578.txt
// Browser conformance tests at: http://greenbytes.de/tech/tc2231/
// IANA assignment: http://www.iana.org/assignments/cont-disp/cont-disp.xhtml
use lazy_static::lazy_static;
use regex::Regex;
use std::fmt::{self, Write};
use crate::header::{self, ExtendedValue, Header, IntoHeaderValue, Writer};
/// Split at the index of the first `needle` if it exists or at the end.
fn split_once(haystack: &str, needle: char) -> (&str, &str) {
haystack.find(needle).map_or_else(
|| (haystack, ""),
|sc| {
let (first, last) = haystack.split_at(sc);
(first, last.split_at(1).1)
},
)
}
/// Split at the index of the first `needle` if it exists or at the end, trim the right of the
/// first part and the left of the last part.
fn split_once_and_trim(haystack: &str, needle: char) -> (&str, &str) {
let (first, last) = split_once(haystack, needle);
(first.trim_end(), last.trim_start())
}
/// The implied disposition of the content of the HTTP body.
#[derive(Clone, Debug, PartialEq)]
pub enum DispositionType {
/// Inline implies default processing
Inline,
/// Attachment implies that the recipient should prompt the user to save the response locally,
/// rather than process it normally (as per its media type).
Attachment,
/// Used in *multipart/form-data* as defined in
/// [RFC7578](https://tools.ietf.org/html/rfc7578) to carry the field name and the file name.
FormData,
/// Extension type. Should be handled by recipients the same way as Attachment
Ext(String),
}
impl<'a> From<&'a str> for DispositionType {
fn from(origin: &'a str) -> DispositionType {
if origin.eq_ignore_ascii_case("inline") {
DispositionType::Inline
} else if origin.eq_ignore_ascii_case("attachment") {
DispositionType::Attachment
} else if origin.eq_ignore_ascii_case("form-data") {
DispositionType::FormData
} else {
DispositionType::Ext(origin.to_owned())
}
}
}
/// Parameter in [`ContentDisposition`].
///
/// # Examples
/// ```
/// use actix_http::http::header::DispositionParam;
///
/// let param = DispositionParam::Filename(String::from("sample.txt"));
/// assert!(param.is_filename());
/// assert_eq!(param.as_filename().unwrap(), "sample.txt");
/// ```
#[derive(Clone, Debug, PartialEq)]
pub enum DispositionParam {
/// For [`DispositionType::FormData`] (i.e. *multipart/form-data*), the name of an field from
/// the form.
Name(String),
/// A plain file name.
Filename(String),
/// An extended file name. It must not exist for `ContentType::Formdata` according to
/// [RFC7578 Section 4.2](https://tools.ietf.org/html/rfc7578#section-4.2).
FilenameExt(ExtendedValue),
/// An unrecognized regular parameter as defined in
/// [RFC5987](https://tools.ietf.org/html/rfc5987) as *reg-parameter*, in
/// [RFC6266](https://tools.ietf.org/html/rfc6266) as *token "=" value*. Recipients should
/// ignore unrecognizable parameters.
Unknown(String, String),
/// An unrecognized extended paramater as defined in
/// [RFC5987](https://tools.ietf.org/html/rfc5987) as *ext-parameter*, in
/// [RFC6266](https://tools.ietf.org/html/rfc6266) as *ext-token "=" ext-value*. The single
/// trailling asterisk is not included. Recipients should ignore unrecognizable parameters.
UnknownExt(String, ExtendedValue),
}
impl DispositionParam {
/// Returns `true` if the paramater is [`Name`](DispositionParam::Name).
#[inline]
pub fn is_name(&self) -> bool {
self.as_name().is_some()
}
/// Returns `true` if the paramater is [`Filename`](DispositionParam::Filename).
#[inline]
pub fn is_filename(&self) -> bool {
self.as_filename().is_some()
}
/// Returns `true` if the paramater is [`FilenameExt`](DispositionParam::FilenameExt).
#[inline]
pub fn is_filename_ext(&self) -> bool {
self.as_filename_ext().is_some()
}
/// Returns `true` if the paramater is [`Unknown`](DispositionParam::Unknown) and the `name`
#[inline]
/// matches.
pub fn is_unknown<T: AsRef<str>>(&self, name: T) -> bool {
self.as_unknown(name).is_some()
}
/// Returns `true` if the paramater is [`UnknownExt`](DispositionParam::UnknownExt) and the
/// `name` matches.
#[inline]
pub fn is_unknown_ext<T: AsRef<str>>(&self, name: T) -> bool {
self.as_unknown_ext(name).is_some()
}
/// Returns the name if applicable.
#[inline]
pub fn as_name(&self) -> Option<&str> {
match self {
DispositionParam::Name(ref name) => Some(name.as_str()),
_ => None,
}
}
/// Returns the filename if applicable.
#[inline]
pub fn as_filename(&self) -> Option<&str> {
match self {
DispositionParam::Filename(ref filename) => Some(filename.as_str()),
_ => None,
}
}
/// Returns the filename* if applicable.
#[inline]
pub fn as_filename_ext(&self) -> Option<&ExtendedValue> {
match self {
DispositionParam::FilenameExt(ref value) => Some(value),
_ => None,
}
}
/// Returns the value of the unrecognized regular parameter if it is
/// [`Unknown`](DispositionParam::Unknown) and the `name` matches.
#[inline]
pub fn as_unknown<T: AsRef<str>>(&self, name: T) -> Option<&str> {
match self {
DispositionParam::Unknown(ref ext_name, ref value)
if ext_name.eq_ignore_ascii_case(name.as_ref()) =>
{
Some(value.as_str())
}
_ => None,
}
}
/// Returns the value of the unrecognized extended parameter if it is
/// [`Unknown`](DispositionParam::Unknown) and the `name` matches.
#[inline]
pub fn as_unknown_ext<T: AsRef<str>>(&self, name: T) -> Option<&ExtendedValue> {
match self {
DispositionParam::UnknownExt(ref ext_name, ref value)
if ext_name.eq_ignore_ascii_case(name.as_ref()) =>
{
Some(value)
}
_ => None,
}
}
}
/// A *Content-Disposition* header. It is compatible to be used either as
/// [a response header for the main body](https://mdn.io/Content-Disposition#As_a_response_header_for_the_main_body)
/// as (re)defined in [RFC6266](https://tools.ietf.org/html/rfc6266), or as
/// [a header for a multipart body](https://mdn.io/Content-Disposition#As_a_header_for_a_multipart_body)
/// as (re)defined in [RFC7587](https://tools.ietf.org/html/rfc7578).
///
/// In a regular HTTP response, the *Content-Disposition* response header is a header indicating if
/// the content is expected to be displayed *inline* in the browser, that is, as a Web page or as
/// part of a Web page, or as an attachment, that is downloaded and saved locally, and also can be
/// used to attach additional metadata, such as the filename to use when saving the response payload
/// locally.
///
/// In a *multipart/form-data* body, the HTTP *Content-Disposition* general header is a header that
/// can be used on the subpart of a multipart body to give information about the field it applies to.
/// The subpart is delimited by the boundary defined in the *Content-Type* header. Used on the body
/// itself, *Content-Disposition* has no effect.
///
/// # ABNF
/// ```text
/// content-disposition = "Content-Disposition" ":"
/// disposition-type *( ";" disposition-parm )
///
/// disposition-type = "inline" | "attachment" | disp-ext-type
/// ; case-insensitive
///
/// disp-ext-type = token
///
/// disposition-parm = filename-parm | disp-ext-parm
///
/// filename-parm = "filename" "=" value
/// | "filename*" "=" ext-value
///
/// disp-ext-parm = token "=" value
/// | ext-token "=" ext-value
///
/// ext-token = <the characters in token, followed by "*">
/// ```
///
/// **Note**: filename* [must not](https://tools.ietf.org/html/rfc7578#section-4.2) be used within
/// *multipart/form-data*.
///
/// # Example
///
/// ```
/// use actix_http::http::header::{
/// Charset, ContentDisposition, DispositionParam, DispositionType,
/// ExtendedValue,
/// };
///
/// let cd1 = ContentDisposition {
/// disposition: DispositionType::Attachment,
/// parameters: vec![DispositionParam::FilenameExt(ExtendedValue {
/// charset: Charset::Iso_8859_1, // The character set for the bytes of the filename
/// language_tag: None, // The optional language tag (see `language-tag` crate)
/// value: b"\xa9 Copyright 1989.txt".to_vec(), // the actual bytes of the filename
/// })],
/// };
/// assert!(cd1.is_attachment());
/// assert!(cd1.get_filename_ext().is_some());
///
/// let cd2 = ContentDisposition {
/// disposition: DispositionType::FormData,
/// parameters: vec![
/// DispositionParam::Name(String::from("file")),
/// DispositionParam::Filename(String::from("bill.odt")),
/// ],
/// };
/// assert_eq!(cd2.get_name(), Some("file")); // field name
/// assert_eq!(cd2.get_filename(), Some("bill.odt"));
/// ```
///
/// # WARN
/// If "filename" parameter is supplied, do not use the file name blindly, check and possibly
/// change to match local file system conventions if applicable, and do not use directory path
/// information that may be present. See [RFC2183](https://tools.ietf.org/html/rfc2183#section-2.3)
/// .
#[derive(Clone, Debug, PartialEq)]
pub struct ContentDisposition {
/// The disposition type
pub disposition: DispositionType,
/// Disposition parameters
pub parameters: Vec<DispositionParam>,
}
impl ContentDisposition {
/// Parse a raw Content-Disposition header value.
pub fn from_raw(hv: &header::HeaderValue) -> Result<Self, crate::error::ParseError> {
// `header::from_one_raw_str` invokes `hv.to_str` which assumes `hv` contains only visible
// ASCII characters. So `hv.as_bytes` is necessary here.
let hv = String::from_utf8(hv.as_bytes().to_vec())
.map_err(|_| crate::error::ParseError::Header)?;
let (disp_type, mut left) = split_once_and_trim(hv.as_str().trim(), ';');
if disp_type.is_empty() {
return Err(crate::error::ParseError::Header);
}
let mut cd = ContentDisposition {
disposition: disp_type.into(),
parameters: Vec::new(),
};
while !left.is_empty() {
let (param_name, new_left) = split_once_and_trim(left, '=');
if param_name.is_empty() || param_name == "*" || new_left.is_empty() {
return Err(crate::error::ParseError::Header);
}
left = new_left;
if param_name.ends_with('*') {
// extended parameters
let param_name = &param_name[..param_name.len() - 1]; // trim asterisk
let (ext_value, new_left) = split_once_and_trim(left, ';');
left = new_left;
let ext_value = header::parse_extended_value(ext_value)?;
let param = if param_name.eq_ignore_ascii_case("filename") {
DispositionParam::FilenameExt(ext_value)
} else {
DispositionParam::UnknownExt(param_name.to_owned(), ext_value)
};
cd.parameters.push(param);
} else {
// regular parameters
let value = if left.starts_with('\"') {
// quoted-string: defined in RFC6266 -> RFC2616 Section 3.6
let mut escaping = false;
let mut quoted_string = vec![];
let mut end = None;
// search for closing quote
for (i, &c) in left.as_bytes().iter().skip(1).enumerate() {
if escaping {
escaping = false;
quoted_string.push(c);
} else if c == 0x5c {
// backslash
escaping = true;
} else if c == 0x22 {
// double quote
end = Some(i + 1); // cuz skipped 1 for the leading quote
break;
} else {
quoted_string.push(c);
}
}
left = &left[end.ok_or(crate::error::ParseError::Header)? + 1..];
left = split_once(left, ';').1.trim_start();
// In fact, it should not be Err if the above code is correct.
String::from_utf8(quoted_string)
.map_err(|_| crate::error::ParseError::Header)?
} else {
// token: won't contains semicolon according to RFC 2616 Section 2.2
let (token, new_left) = split_once_and_trim(left, ';');
left = new_left;
token.to_owned()
};
if value.is_empty() {
return Err(crate::error::ParseError::Header);
}
let param = if param_name.eq_ignore_ascii_case("name") {
DispositionParam::Name(value)
} else if param_name.eq_ignore_ascii_case("filename") {
DispositionParam::Filename(value)
} else {
DispositionParam::Unknown(param_name.to_owned(), value)
};
cd.parameters.push(param);
}
}
Ok(cd)
}
/// Returns `true` if it is [`Inline`](DispositionType::Inline).
pub fn is_inline(&self) -> bool {
match self.disposition {
DispositionType::Inline => true,
_ => false,
}
}
/// Returns `true` if it is [`Attachment`](DispositionType::Attachment).
pub fn is_attachment(&self) -> bool {
match self.disposition {
DispositionType::Attachment => true,
_ => false,
}
}
/// Returns `true` if it is [`FormData`](DispositionType::FormData).
pub fn is_form_data(&self) -> bool {
match self.disposition {
DispositionType::FormData => true,
_ => false,
}
}
/// Returns `true` if it is [`Ext`](DispositionType::Ext) and the `disp_type` matches.
pub fn is_ext<T: AsRef<str>>(&self, disp_type: T) -> bool {
match self.disposition {
DispositionType::Ext(ref t)
if t.eq_ignore_ascii_case(disp_type.as_ref()) =>
{
true
}
_ => false,
}
}
/// Return the value of *name* if exists.
pub fn get_name(&self) -> Option<&str> {
self.parameters.iter().filter_map(|p| p.as_name()).nth(0)
}
/// Return the value of *filename* if exists.
pub fn get_filename(&self) -> Option<&str> {
self.parameters
.iter()
.filter_map(|p| p.as_filename())
.nth(0)
}
/// Return the value of *filename\** if exists.
pub fn get_filename_ext(&self) -> Option<&ExtendedValue> {
self.parameters
.iter()
.filter_map(|p| p.as_filename_ext())
.nth(0)
}
/// Return the value of the parameter which the `name` matches.
pub fn get_unknown<T: AsRef<str>>(&self, name: T) -> Option<&str> {
let name = name.as_ref();
self.parameters
.iter()
.filter_map(|p| p.as_unknown(name))
.nth(0)
}
/// Return the value of the extended parameter which the `name` matches.
pub fn get_unknown_ext<T: AsRef<str>>(&self, name: T) -> Option<&ExtendedValue> {
let name = name.as_ref();
self.parameters
.iter()
.filter_map(|p| p.as_unknown_ext(name))
.nth(0)
}
}
impl IntoHeaderValue for ContentDisposition {
type Error = header::InvalidHeaderValueBytes;
fn try_into(self) -> Result<header::HeaderValue, Self::Error> {
let mut writer = Writer::new();
let _ = write!(&mut writer, "{}", self);
header::HeaderValue::from_shared(writer.take())
}
}
impl Header for ContentDisposition {
fn name() -> header::HeaderName {
header::CONTENT_DISPOSITION
}
fn parse<T: crate::HttpMessage>(msg: &T) -> Result<Self, crate::error::ParseError> {
if let Some(h) = msg.headers().get(Self::name()) {
Self::from_raw(&h)
} else {
Err(crate::error::ParseError::Header)
}
}
}
impl fmt::Display for DispositionType {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match self {
DispositionType::Inline => write!(f, "inline"),
DispositionType::Attachment => write!(f, "attachment"),
DispositionType::FormData => write!(f, "form-data"),
DispositionType::Ext(ref s) => write!(f, "{}", s),
}
}
}
impl fmt::Display for DispositionParam {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
// All ASCII control charaters (0-30, 127) excepting horizontal tab, double quote, and
// backslash should be escaped in quoted-string (i.e. "foobar").
// Ref: RFC6266 S4.1 -> RFC2616 S2.2; RFC 7578 S4.2 -> RFC2183 S2 -> ... .
lazy_static! {
static ref RE: Regex = Regex::new("[\x01-\x08\x10\x1F\x7F\"\\\\]").unwrap();
}
match self {
DispositionParam::Name(ref value) => write!(f, "name={}", value),
DispositionParam::Filename(ref value) => {
write!(f, "filename=\"{}\"", RE.replace_all(value, "\\$0").as_ref())
}
DispositionParam::Unknown(ref name, ref value) => write!(
f,
"{}=\"{}\"",
name,
&RE.replace_all(value, "\\$0").as_ref()
),
DispositionParam::FilenameExt(ref ext_value) => {
write!(f, "filename*={}", ext_value)
}
DispositionParam::UnknownExt(ref name, ref ext_value) => {
write!(f, "{}*={}", name, ext_value)
}
}
}
}
impl fmt::Display for ContentDisposition {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "{}", self.disposition)?;
self.parameters
.iter()
.map(|param| write!(f, "; {}", param))
.collect()
}
}
#[cfg(test)]
mod tests {
use super::{ContentDisposition, DispositionParam, DispositionType};
use crate::header::shared::Charset;
use crate::header::{ExtendedValue, HeaderValue};
#[test]
fn test_from_raw_basic() {
assert!(ContentDisposition::from_raw(&HeaderValue::from_static("")).is_err());
let a = HeaderValue::from_static(
"form-data; dummy=3; name=upload; filename=\"sample.png\"",
);
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let b = ContentDisposition {
disposition: DispositionType::FormData,
parameters: vec![
DispositionParam::Unknown("dummy".to_owned(), "3".to_owned()),
DispositionParam::Name("upload".to_owned()),
DispositionParam::Filename("sample.png".to_owned()),
],
};
assert_eq!(a, b);
let a = HeaderValue::from_static("attachment; filename=\"image.jpg\"");
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let b = ContentDisposition {
disposition: DispositionType::Attachment,
parameters: vec![DispositionParam::Filename("image.jpg".to_owned())],
};
assert_eq!(a, b);
let a = HeaderValue::from_static("inline; filename=image.jpg");
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let b = ContentDisposition {
disposition: DispositionType::Inline,
parameters: vec![DispositionParam::Filename("image.jpg".to_owned())],
};
assert_eq!(a, b);
let a = HeaderValue::from_static(
"attachment; creation-date=\"Wed, 12 Feb 1997 16:29:51 -0500\"",
);
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let b = ContentDisposition {
disposition: DispositionType::Attachment,
parameters: vec![DispositionParam::Unknown(
String::from("creation-date"),
"Wed, 12 Feb 1997 16:29:51 -0500".to_owned(),
)],
};
assert_eq!(a, b);
}
#[test]
fn test_from_raw_extended() {
let a = HeaderValue::from_static(
"attachment; filename*=UTF-8''%c2%a3%20and%20%e2%82%ac%20rates",
);
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let b = ContentDisposition {
disposition: DispositionType::Attachment,
parameters: vec![DispositionParam::FilenameExt(ExtendedValue {
charset: Charset::Ext(String::from("UTF-8")),
language_tag: None,
value: vec![
0xc2, 0xa3, 0x20, b'a', b'n', b'd', 0x20, 0xe2, 0x82, 0xac, 0x20,
b'r', b'a', b't', b'e', b's',
],
})],
};
assert_eq!(a, b);
let a = HeaderValue::from_static(
"attachment; filename*=UTF-8''%c2%a3%20and%20%e2%82%ac%20rates",
);
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let b = ContentDisposition {
disposition: DispositionType::Attachment,
parameters: vec![DispositionParam::FilenameExt(ExtendedValue {
charset: Charset::Ext(String::from("UTF-8")),
language_tag: None,
value: vec![
0xc2, 0xa3, 0x20, b'a', b'n', b'd', 0x20, 0xe2, 0x82, 0xac, 0x20,
b'r', b'a', b't', b'e', b's',
],
})],
};
assert_eq!(a, b);
}
#[test]
fn test_from_raw_extra_whitespace() {
let a = HeaderValue::from_static(
"form-data ; du-mmy= 3 ; name =upload ; filename = \"sample.png\" ; ",
);
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let b = ContentDisposition {
disposition: DispositionType::FormData,
parameters: vec![
DispositionParam::Unknown("du-mmy".to_owned(), "3".to_owned()),
DispositionParam::Name("upload".to_owned()),
DispositionParam::Filename("sample.png".to_owned()),
],
};
assert_eq!(a, b);
}
#[test]
fn test_from_raw_unordered() {
let a = HeaderValue::from_static(
"form-data; dummy=3; filename=\"sample.png\" ; name=upload;",
// Actually, a trailling semolocon is not compliant. But it is fine to accept.
);
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let b = ContentDisposition {
disposition: DispositionType::FormData,
parameters: vec![
DispositionParam::Unknown("dummy".to_owned(), "3".to_owned()),
DispositionParam::Filename("sample.png".to_owned()),
DispositionParam::Name("upload".to_owned()),
],
};
assert_eq!(a, b);
let a = HeaderValue::from_str(
"attachment; filename*=iso-8859-1''foo-%E4.html; filename=\"foo-ä.html\"",
)
.unwrap();
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let b = ContentDisposition {
disposition: DispositionType::Attachment,
parameters: vec![
DispositionParam::FilenameExt(ExtendedValue {
charset: Charset::Iso_8859_1,
language_tag: None,
value: b"foo-\xe4.html".to_vec(),
}),
DispositionParam::Filename("foo-ä.html".to_owned()),
],
};
assert_eq!(a, b);
}
#[test]
fn test_from_raw_only_disp() {
let a = ContentDisposition::from_raw(&HeaderValue::from_static("attachment"))
.unwrap();
let b = ContentDisposition {
disposition: DispositionType::Attachment,
parameters: vec![],
};
assert_eq!(a, b);
let a =
ContentDisposition::from_raw(&HeaderValue::from_static("inline ;")).unwrap();
let b = ContentDisposition {
disposition: DispositionType::Inline,
parameters: vec![],
};
assert_eq!(a, b);
let a = ContentDisposition::from_raw(&HeaderValue::from_static(
"unknown-disp-param",
))
.unwrap();
let b = ContentDisposition {
disposition: DispositionType::Ext(String::from("unknown-disp-param")),
parameters: vec![],
};
assert_eq!(a, b);
}
#[test]
fn from_raw_with_mixed_case() {
let a = HeaderValue::from_str(
"InLInE; fIlenAME*=iso-8859-1''foo-%E4.html; filEName=\"foo-ä.html\"",
)
.unwrap();
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let b = ContentDisposition {
disposition: DispositionType::Inline,
parameters: vec![
DispositionParam::FilenameExt(ExtendedValue {
charset: Charset::Iso_8859_1,
language_tag: None,
value: b"foo-\xe4.html".to_vec(),
}),
DispositionParam::Filename("foo-ä.html".to_owned()),
],
};
assert_eq!(a, b);
}
#[test]
fn from_raw_with_unicode() {
/* RFC7578 Section 4.2:
Some commonly deployed systems use multipart/form-data with file names directly encoded
including octets outside the US-ASCII range. The encoding used for the file names is
typically UTF-8, although HTML forms will use the charset associated with the form.
Mainstream browsers like Firefox (gecko) and Chrome use UTF-8 directly as above.
(And now, only UTF-8 is handled by this implementation.)
*/
let a =
HeaderValue::from_str("form-data; name=upload; filename=\"文件.webp\"")
.unwrap();
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let b = ContentDisposition {
disposition: DispositionType::FormData,
parameters: vec![
DispositionParam::Name(String::from("upload")),
DispositionParam::Filename(String::from("文件.webp")),
],
};
assert_eq!(a, b);
let a =
HeaderValue::from_str("form-data; name=upload; filename=\"余固知謇謇之為患兮,忍而不能舍也.pptx\"").unwrap();
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let b = ContentDisposition {
disposition: DispositionType::FormData,
parameters: vec![
DispositionParam::Name(String::from("upload")),
DispositionParam::Filename(String::from(
"余固知謇謇之為患兮,忍而不能舍也.pptx",
)),
],
};
assert_eq!(a, b);
}
#[test]
fn test_from_raw_escape() {
let a = HeaderValue::from_static(
"form-data; dummy=3; name=upload; filename=\"s\\amp\\\"le.png\"",
);
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let b = ContentDisposition {
disposition: DispositionType::FormData,
parameters: vec![
DispositionParam::Unknown("dummy".to_owned(), "3".to_owned()),
DispositionParam::Name("upload".to_owned()),
DispositionParam::Filename(
['s', 'a', 'm', 'p', '\"', 'l', 'e', '.', 'p', 'n', 'g']
.iter()
.collect(),
),
],
};
assert_eq!(a, b);
}
#[test]
fn test_from_raw_semicolon() {
let a =
HeaderValue::from_static("form-data; filename=\"A semicolon here;.pdf\"");
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let b = ContentDisposition {
disposition: DispositionType::FormData,
parameters: vec![DispositionParam::Filename(String::from(
"A semicolon here;.pdf",
))],
};
assert_eq!(a, b);
}
#[test]
fn test_from_raw_uncessary_percent_decode() {
let a = HeaderValue::from_static(
"form-data; name=photo; filename=\"%74%65%73%74%2e%70%6e%67\"", // Should not be decoded!
);
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let b = ContentDisposition {
disposition: DispositionType::FormData,
parameters: vec![
DispositionParam::Name("photo".to_owned()),
DispositionParam::Filename(String::from("%74%65%73%74%2e%70%6e%67")),
],
};
assert_eq!(a, b);
let a = HeaderValue::from_static(
"form-data; name=photo; filename=\"%74%65%73%74.png\"",
);
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let b = ContentDisposition {
disposition: DispositionType::FormData,
parameters: vec![
DispositionParam::Name("photo".to_owned()),
DispositionParam::Filename(String::from("%74%65%73%74.png")),
],
};
assert_eq!(a, b);
}
#[test]
fn test_from_raw_param_value_missing() {
let a = HeaderValue::from_static("form-data; name=upload ; filename=");
assert!(ContentDisposition::from_raw(&a).is_err());
let a = HeaderValue::from_static("attachment; dummy=; filename=invoice.pdf");
assert!(ContentDisposition::from_raw(&a).is_err());
let a = HeaderValue::from_static("inline; filename= ");
assert!(ContentDisposition::from_raw(&a).is_err());
}
#[test]
fn test_from_raw_param_name_missing() {
let a = HeaderValue::from_static("inline; =\"test.txt\"");
assert!(ContentDisposition::from_raw(&a).is_err());
let a = HeaderValue::from_static("inline; =diary.odt");
assert!(ContentDisposition::from_raw(&a).is_err());
let a = HeaderValue::from_static("inline; =");
assert!(ContentDisposition::from_raw(&a).is_err());
}
#[test]
fn test_display_extended() {
let as_string =
"attachment; filename*=UTF-8'en'%C2%A3%20and%20%E2%82%AC%20rates";
let a = HeaderValue::from_static(as_string);
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let display_rendered = format!("{}", a);
assert_eq!(as_string, display_rendered);
let a = HeaderValue::from_static("attachment; filename=colourful.csv");
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let display_rendered = format!("{}", a);
assert_eq!(
"attachment; filename=\"colourful.csv\"".to_owned(),
display_rendered
);
}
#[test]
fn test_display_quote() {
let as_string = "form-data; name=upload; filename=\"Quote\\\"here.png\"";
as_string
.find(['\\', '\"'].iter().collect::<String>().as_str())
.unwrap(); // ensure `\"` is there
let a = HeaderValue::from_static(as_string);
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let display_rendered = format!("{}", a);
assert_eq!(as_string, display_rendered);
}
#[test]
fn test_display_space_tab() {
let as_string = "form-data; name=upload; filename=\"Space here.png\"";
let a = HeaderValue::from_static(as_string);
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let display_rendered = format!("{}", a);
assert_eq!(as_string, display_rendered);
let a: ContentDisposition = ContentDisposition {
disposition: DispositionType::Inline,
parameters: vec![DispositionParam::Filename(String::from("Tab\there.png"))],
};
let display_rendered = format!("{}", a);
assert_eq!("inline; filename=\"Tab\x09here.png\"", display_rendered);
}
#[test]
fn test_display_control_characters() {
/* let a = "attachment; filename=\"carriage\rreturn.png\"";
let a = HeaderValue::from_static(a);
let a: ContentDisposition = ContentDisposition::from_raw(&a).unwrap();
let display_rendered = format!("{}", a);
assert_eq!(
"attachment; filename=\"carriage\\\rreturn.png\"",
display_rendered
);*/
// No way to create a HeaderValue containing a carriage return.
let a: ContentDisposition = ContentDisposition {
disposition: DispositionType::Inline,
parameters: vec![DispositionParam::Filename(String::from("bell\x07.png"))],
};
let display_rendered = format!("{}", a);
assert_eq!("inline; filename=\"bell\\\x07.png\"", display_rendered);
}
#[test]
fn test_param_methods() {
let param = DispositionParam::Filename(String::from("sample.txt"));
assert!(param.is_filename());
assert_eq!(param.as_filename().unwrap(), "sample.txt");
let param = DispositionParam::Unknown(String::from("foo"), String::from("bar"));
assert!(param.is_unknown("foo"));
assert_eq!(param.as_unknown("fOo"), Some("bar"));
}
#[test]
fn test_disposition_methods() {
let cd = ContentDisposition {
disposition: DispositionType::FormData,
parameters: vec![
DispositionParam::Unknown("dummy".to_owned(), "3".to_owned()),
DispositionParam::Name("upload".to_owned()),
DispositionParam::Filename("sample.png".to_owned()),
],
};
assert_eq!(cd.get_name(), Some("upload"));
assert_eq!(cd.get_unknown("dummy"), Some("3"));
assert_eq!(cd.get_filename(), Some("sample.png"));
assert_eq!(cd.get_unknown_ext("dummy"), None);
assert_eq!(cd.get_unknown("duMMy"), Some("3"));
}
}

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use crate::header::{QualityItem, CONTENT_LANGUAGE};
use language_tags::LanguageTag;
header! {
/// `Content-Language` header, defined in
/// [RFC7231](https://tools.ietf.org/html/rfc7231#section-3.1.3.2)
///
/// The `Content-Language` header field describes the natural language(s)
/// of the intended audience for the representation. Note that this
/// might not be equivalent to all the languages used within the
/// representation.
///
/// # ABNF
///
/// ```text
/// Content-Language = 1#language-tag
/// ```
///
/// # Example values
///
/// * `da`
/// * `mi, en`
///
/// # Examples
///
/// ```rust
/// # extern crate actix_http;
/// # #[macro_use] extern crate language_tags;
/// use actix_http::Response;
/// # use actix_http::http::header::{ContentLanguage, qitem};
/// #
/// # fn main() {
/// let mut builder = Response::Ok();
/// builder.set(
/// ContentLanguage(vec![
/// qitem(langtag!(en)),
/// ])
/// );
/// # }
/// ```
///
/// ```rust
/// # extern crate actix_http;
/// # #[macro_use] extern crate language_tags;
/// use actix_http::Response;
/// # use actix_http::http::header::{ContentLanguage, qitem};
/// #
/// # fn main() {
///
/// let mut builder = Response::Ok();
/// builder.set(
/// ContentLanguage(vec![
/// qitem(langtag!(da)),
/// qitem(langtag!(en;;;GB)),
/// ])
/// );
/// # }
/// ```
(ContentLanguage, CONTENT_LANGUAGE) => (QualityItem<LanguageTag>)+
test_content_language {
test_header!(test1, vec![b"da"]);
test_header!(test2, vec![b"mi, en"]);
}
}

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use std::fmt::{self, Display, Write};
use std::str::FromStr;
use crate::error::ParseError;
use crate::header::{
HeaderValue, IntoHeaderValue, InvalidHeaderValueBytes, Writer, CONTENT_RANGE,
};
header! {
/// `Content-Range` header, defined in
/// [RFC7233](http://tools.ietf.org/html/rfc7233#section-4.2)
(ContentRange, CONTENT_RANGE) => [ContentRangeSpec]
test_content_range {
test_header!(test_bytes,
vec![b"bytes 0-499/500"],
Some(ContentRange(ContentRangeSpec::Bytes {
range: Some((0, 499)),
instance_length: Some(500)
})));
test_header!(test_bytes_unknown_len,
vec![b"bytes 0-499/*"],
Some(ContentRange(ContentRangeSpec::Bytes {
range: Some((0, 499)),
instance_length: None
})));
test_header!(test_bytes_unknown_range,
vec![b"bytes */500"],
Some(ContentRange(ContentRangeSpec::Bytes {
range: None,
instance_length: Some(500)
})));
test_header!(test_unregistered,
vec![b"seconds 1-2"],
Some(ContentRange(ContentRangeSpec::Unregistered {
unit: "seconds".to_owned(),
resp: "1-2".to_owned()
})));
test_header!(test_no_len,
vec![b"bytes 0-499"],
None::<ContentRange>);
test_header!(test_only_unit,
vec![b"bytes"],
None::<ContentRange>);
test_header!(test_end_less_than_start,
vec![b"bytes 499-0/500"],
None::<ContentRange>);
test_header!(test_blank,
vec![b""],
None::<ContentRange>);
test_header!(test_bytes_many_spaces,
vec![b"bytes 1-2/500 3"],
None::<ContentRange>);
test_header!(test_bytes_many_slashes,
vec![b"bytes 1-2/500/600"],
None::<ContentRange>);
test_header!(test_bytes_many_dashes,
vec![b"bytes 1-2-3/500"],
None::<ContentRange>);
}
}
/// Content-Range, described in [RFC7233](https://tools.ietf.org/html/rfc7233#section-4.2)
///
/// # ABNF
///
/// ```text
/// Content-Range = byte-content-range
/// / other-content-range
///
/// byte-content-range = bytes-unit SP
/// ( byte-range-resp / unsatisfied-range )
///
/// byte-range-resp = byte-range "/" ( complete-length / "*" )
/// byte-range = first-byte-pos "-" last-byte-pos
/// unsatisfied-range = "*/" complete-length
///
/// complete-length = 1*DIGIT
///
/// other-content-range = other-range-unit SP other-range-resp
/// other-range-resp = *CHAR
/// ```
#[derive(PartialEq, Clone, Debug)]
pub enum ContentRangeSpec {
/// Byte range
Bytes {
/// First and last bytes of the range, omitted if request could not be
/// satisfied
range: Option<(u64, u64)>,
/// Total length of the instance, can be omitted if unknown
instance_length: Option<u64>,
},
/// Custom range, with unit not registered at IANA
Unregistered {
/// other-range-unit
unit: String,
/// other-range-resp
resp: String,
},
}
fn split_in_two(s: &str, separator: char) -> Option<(&str, &str)> {
let mut iter = s.splitn(2, separator);
match (iter.next(), iter.next()) {
(Some(a), Some(b)) => Some((a, b)),
_ => None,
}
}
impl FromStr for ContentRangeSpec {
type Err = ParseError;
fn from_str(s: &str) -> Result<Self, ParseError> {
let res = match split_in_two(s, ' ') {
Some(("bytes", resp)) => {
let (range, instance_length) =
split_in_two(resp, '/').ok_or(ParseError::Header)?;
let instance_length = if instance_length == "*" {
None
} else {
Some(instance_length.parse().map_err(|_| ParseError::Header)?)
};
let range = if range == "*" {
None
} else {
let (first_byte, last_byte) =
split_in_two(range, '-').ok_or(ParseError::Header)?;
let first_byte =
first_byte.parse().map_err(|_| ParseError::Header)?;
let last_byte = last_byte.parse().map_err(|_| ParseError::Header)?;
if last_byte < first_byte {
return Err(ParseError::Header);
}
Some((first_byte, last_byte))
};
ContentRangeSpec::Bytes {
range,
instance_length,
}
}
Some((unit, resp)) => ContentRangeSpec::Unregistered {
unit: unit.to_owned(),
resp: resp.to_owned(),
},
_ => return Err(ParseError::Header),
};
Ok(res)
}
}
impl Display for ContentRangeSpec {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
ContentRangeSpec::Bytes {
range,
instance_length,
} => {
f.write_str("bytes ")?;
match range {
Some((first_byte, last_byte)) => {
write!(f, "{}-{}", first_byte, last_byte)?;
}
None => {
f.write_str("*")?;
}
};
f.write_str("/")?;
if let Some(v) = instance_length {
write!(f, "{}", v)
} else {
f.write_str("*")
}
}
ContentRangeSpec::Unregistered { ref unit, ref resp } => {
f.write_str(unit)?;
f.write_str(" ")?;
f.write_str(resp)
}
}
}
}
impl IntoHeaderValue for ContentRangeSpec {
type Error = InvalidHeaderValueBytes;
fn try_into(self) -> Result<HeaderValue, Self::Error> {
let mut writer = Writer::new();
let _ = write!(&mut writer, "{}", self);
HeaderValue::from_shared(writer.take())
}
}

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use crate::header::CONTENT_TYPE;
use mime::Mime;
header! {
/// `Content-Type` header, defined in
/// [RFC7231](http://tools.ietf.org/html/rfc7231#section-3.1.1.5)
///
/// The `Content-Type` header field indicates the media type of the
/// associated representation: either the representation enclosed in the
/// message payload or the selected representation, as determined by the
/// message semantics. The indicated media type defines both the data
/// format and how that data is intended to be processed by a recipient,
/// within the scope of the received message semantics, after any content
/// codings indicated by Content-Encoding are decoded.
///
/// Although the `mime` crate allows the mime options to be any slice, this crate
/// forces the use of Vec. This is to make sure the same header can't have more than 1 type. If
/// this is an issue, it's possible to implement `Header` on a custom struct.
///
/// # ABNF
///
/// ```text
/// Content-Type = media-type
/// ```
///
/// # Example values
///
/// * `text/html; charset=utf-8`
/// * `application/json`
///
/// # Examples
///
/// ```rust
/// use actix_http::Response;
/// use actix_http::http::header::ContentType;
///
/// # fn main() {
/// let mut builder = Response::Ok();
/// builder.set(
/// ContentType::json()
/// );
/// # }
/// ```
///
/// ```rust
/// # extern crate mime;
/// # extern crate actix_http;
/// use mime::TEXT_HTML;
/// use actix_http::Response;
/// use actix_http::http::header::ContentType;
///
/// # fn main() {
/// let mut builder = Response::Ok();
/// builder.set(
/// ContentType(TEXT_HTML)
/// );
/// # }
/// ```
(ContentType, CONTENT_TYPE) => [Mime]
test_content_type {
test_header!(
test1,
vec![b"text/html"],
Some(HeaderField(mime::TEXT_HTML)));
}
}
impl ContentType {
/// A constructor to easily create a `Content-Type: application/json`
/// header.
#[inline]
pub fn json() -> ContentType {
ContentType(mime::APPLICATION_JSON)
}
/// A constructor to easily create a `Content-Type: text/plain;
/// charset=utf-8` header.
#[inline]
pub fn plaintext() -> ContentType {
ContentType(mime::TEXT_PLAIN_UTF_8)
}
/// A constructor to easily create a `Content-Type: text/html` header.
#[inline]
pub fn html() -> ContentType {
ContentType(mime::TEXT_HTML)
}
/// A constructor to easily create a `Content-Type: text/xml` header.
#[inline]
pub fn xml() -> ContentType {
ContentType(mime::TEXT_XML)
}
/// A constructor to easily create a `Content-Type:
/// application/www-form-url-encoded` header.
#[inline]
pub fn form_url_encoded() -> ContentType {
ContentType(mime::APPLICATION_WWW_FORM_URLENCODED)
}
/// A constructor to easily create a `Content-Type: image/jpeg` header.
#[inline]
pub fn jpeg() -> ContentType {
ContentType(mime::IMAGE_JPEG)
}
/// A constructor to easily create a `Content-Type: image/png` header.
#[inline]
pub fn png() -> ContentType {
ContentType(mime::IMAGE_PNG)
}
/// A constructor to easily create a `Content-Type:
/// application/octet-stream` header.
#[inline]
pub fn octet_stream() -> ContentType {
ContentType(mime::APPLICATION_OCTET_STREAM)
}
}
impl Eq for ContentType {}

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use crate::header::{HttpDate, DATE};
use std::time::SystemTime;
header! {
/// `Date` header, defined in [RFC7231](http://tools.ietf.org/html/rfc7231#section-7.1.1.2)
///
/// The `Date` header field represents the date and time at which the
/// message was originated.
///
/// # ABNF
///
/// ```text
/// Date = HTTP-date
/// ```
///
/// # Example values
///
/// * `Tue, 15 Nov 1994 08:12:31 GMT`
///
/// # Example
///
/// ```rust
/// use actix_http::Response;
/// use actix_http::http::header::Date;
/// use std::time::SystemTime;
///
/// let mut builder = Response::Ok();
/// builder.set(Date(SystemTime::now().into()));
/// ```
(Date, DATE) => [HttpDate]
test_date {
test_header!(test1, vec![b"Tue, 15 Nov 1994 08:12:31 GMT"]);
}
}
impl Date {
/// Create a date instance set to the current system time
pub fn now() -> Date {
Date(SystemTime::now().into())
}
}

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use crate::header::{EntityTag, ETAG};
header! {
/// `ETag` header, defined in [RFC7232](http://tools.ietf.org/html/rfc7232#section-2.3)
///
/// The `ETag` header field in a response provides the current entity-tag
/// for the selected representation, as determined at the conclusion of
/// handling the request. An entity-tag is an opaque validator for
/// differentiating between multiple representations of the same
/// resource, regardless of whether those multiple representations are
/// due to resource state changes over time, content negotiation
/// resulting in multiple representations being valid at the same time,
/// or both. An entity-tag consists of an opaque quoted string, possibly
/// prefixed by a weakness indicator.
///
/// # ABNF
///
/// ```text
/// ETag = entity-tag
/// ```
///
/// # Example values
///
/// * `"xyzzy"`
/// * `W/"xyzzy"`
/// * `""`
///
/// # Examples
///
/// ```rust
/// use actix_http::Response;
/// use actix_http::http::header::{ETag, EntityTag};
///
/// let mut builder = Response::Ok();
/// builder.set(ETag(EntityTag::new(false, "xyzzy".to_owned())));
/// ```
///
/// ```rust
/// use actix_http::Response;
/// use actix_http::http::header::{ETag, EntityTag};
///
/// let mut builder = Response::Ok();
/// builder.set(ETag(EntityTag::new(true, "xyzzy".to_owned())));
/// ```
(ETag, ETAG) => [EntityTag]
test_etag {
// From the RFC
test_header!(test1,
vec![b"\"xyzzy\""],
Some(ETag(EntityTag::new(false, "xyzzy".to_owned()))));
test_header!(test2,
vec![b"W/\"xyzzy\""],
Some(ETag(EntityTag::new(true, "xyzzy".to_owned()))));
test_header!(test3,
vec![b"\"\""],
Some(ETag(EntityTag::new(false, "".to_owned()))));
// Own tests
test_header!(test4,
vec![b"\"foobar\""],
Some(ETag(EntityTag::new(false, "foobar".to_owned()))));
test_header!(test5,
vec![b"\"\""],
Some(ETag(EntityTag::new(false, "".to_owned()))));
test_header!(test6,
vec![b"W/\"weak-etag\""],
Some(ETag(EntityTag::new(true, "weak-etag".to_owned()))));
test_header!(test7,
vec![b"W/\"\x65\x62\""],
Some(ETag(EntityTag::new(true, "\u{0065}\u{0062}".to_owned()))));
test_header!(test8,
vec![b"W/\"\""],
Some(ETag(EntityTag::new(true, "".to_owned()))));
test_header!(test9,
vec![b"no-dquotes"],
None::<ETag>);
test_header!(test10,
vec![b"w/\"the-first-w-is-case-sensitive\""],
None::<ETag>);
test_header!(test11,
vec![b""],
None::<ETag>);
test_header!(test12,
vec![b"\"unmatched-dquotes1"],
None::<ETag>);
test_header!(test13,
vec![b"unmatched-dquotes2\""],
None::<ETag>);
test_header!(test14,
vec![b"matched-\"dquotes\""],
None::<ETag>);
test_header!(test15,
vec![b"\""],
None::<ETag>);
}
}

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use crate::header::{HttpDate, EXPIRES};
header! {
/// `Expires` header, defined in [RFC7234](http://tools.ietf.org/html/rfc7234#section-5.3)
///
/// The `Expires` header field gives the date/time after which the
/// response is considered stale.
///
/// The presence of an Expires field does not imply that the original
/// resource will change or cease to exist at, before, or after that
/// time.
///
/// # ABNF
///
/// ```text
/// Expires = HTTP-date
/// ```
///
/// # Example values
/// * `Thu, 01 Dec 1994 16:00:00 GMT`
///
/// # Example
///
/// ```rust
/// use actix_http::Response;
/// use actix_http::http::header::Expires;
/// use std::time::{SystemTime, Duration};
///
/// let mut builder = Response::Ok();
/// let expiration = SystemTime::now() + Duration::from_secs(60 * 60 * 24);
/// builder.set(Expires(expiration.into()));
/// ```
(Expires, EXPIRES) => [HttpDate]
test_expires {
// Test case from RFC
test_header!(test1, vec![b"Thu, 01 Dec 1994 16:00:00 GMT"]);
}
}

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use crate::header::{EntityTag, IF_MATCH};
header! {
/// `If-Match` header, defined in
/// [RFC7232](https://tools.ietf.org/html/rfc7232#section-3.1)
///
/// The `If-Match` header field makes the request method conditional on
/// the recipient origin server either having at least one current
/// representation of the target resource, when the field-value is "*",
/// or having a current representation of the target resource that has an
/// entity-tag matching a member of the list of entity-tags provided in
/// the field-value.
///
/// An origin server MUST use the strong comparison function when
/// comparing entity-tags for `If-Match`, since the client
/// intends this precondition to prevent the method from being applied if
/// there have been any changes to the representation data.
///
/// # ABNF
///
/// ```text
/// If-Match = "*" / 1#entity-tag
/// ```
///
/// # Example values
///
/// * `"xyzzy"`
/// * "xyzzy", "r2d2xxxx", "c3piozzzz"
///
/// # Examples
///
/// ```rust
/// use actix_http::Response;
/// use actix_http::http::header::IfMatch;
///
/// let mut builder = Response::Ok();
/// builder.set(IfMatch::Any);
/// ```
///
/// ```rust
/// use actix_http::Response;
/// use actix_http::http::header::{IfMatch, EntityTag};
///
/// let mut builder = Response::Ok();
/// builder.set(
/// IfMatch::Items(vec![
/// EntityTag::new(false, "xyzzy".to_owned()),
/// EntityTag::new(false, "foobar".to_owned()),
/// EntityTag::new(false, "bazquux".to_owned()),
/// ])
/// );
/// ```
(IfMatch, IF_MATCH) => {Any / (EntityTag)+}
test_if_match {
test_header!(
test1,
vec![b"\"xyzzy\""],
Some(HeaderField::Items(
vec![EntityTag::new(false, "xyzzy".to_owned())])));
test_header!(
test2,
vec![b"\"xyzzy\", \"r2d2xxxx\", \"c3piozzzz\""],
Some(HeaderField::Items(
vec![EntityTag::new(false, "xyzzy".to_owned()),
EntityTag::new(false, "r2d2xxxx".to_owned()),
EntityTag::new(false, "c3piozzzz".to_owned())])));
test_header!(test3, vec![b"*"], Some(IfMatch::Any));
}
}

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use crate::header::{HttpDate, IF_MODIFIED_SINCE};
header! {
/// `If-Modified-Since` header, defined in
/// [RFC7232](http://tools.ietf.org/html/rfc7232#section-3.3)
///
/// The `If-Modified-Since` header field makes a GET or HEAD request
/// method conditional on the selected representation's modification date
/// being more recent than the date provided in the field-value.
/// Transfer of the selected representation's data is avoided if that
/// data has not changed.
///
/// # ABNF
///
/// ```text
/// If-Unmodified-Since = HTTP-date
/// ```
///
/// # Example values
/// * `Sat, 29 Oct 1994 19:43:31 GMT`
///
/// # Example
///
/// ```rust
/// use actix_http::Response;
/// use actix_http::http::header::IfModifiedSince;
/// use std::time::{SystemTime, Duration};
///
/// let mut builder = Response::Ok();
/// let modified = SystemTime::now() - Duration::from_secs(60 * 60 * 24);
/// builder.set(IfModifiedSince(modified.into()));
/// ```
(IfModifiedSince, IF_MODIFIED_SINCE) => [HttpDate]
test_if_modified_since {
// Test case from RFC
test_header!(test1, vec![b"Sat, 29 Oct 1994 19:43:31 GMT"]);
}
}

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use crate::header::{EntityTag, IF_NONE_MATCH};
header! {
/// `If-None-Match` header, defined in
/// [RFC7232](https://tools.ietf.org/html/rfc7232#section-3.2)
///
/// The `If-None-Match` header field makes the request method conditional
/// on a recipient cache or origin server either not having any current
/// representation of the target resource, when the field-value is "*",
/// or having a selected representation with an entity-tag that does not
/// match any of those listed in the field-value.
///
/// A recipient MUST use the weak comparison function when comparing
/// entity-tags for If-None-Match (Section 2.3.2), since weak entity-tags
/// can be used for cache validation even if there have been changes to
/// the representation data.
///
/// # ABNF
///
/// ```text
/// If-None-Match = "*" / 1#entity-tag
/// ```
///
/// # Example values
///
/// * `"xyzzy"`
/// * `W/"xyzzy"`
/// * `"xyzzy", "r2d2xxxx", "c3piozzzz"`
/// * `W/"xyzzy", W/"r2d2xxxx", W/"c3piozzzz"`
/// * `*`
///
/// # Examples
///
/// ```rust
/// use actix_http::Response;
/// use actix_http::http::header::IfNoneMatch;
///
/// let mut builder = Response::Ok();
/// builder.set(IfNoneMatch::Any);
/// ```
///
/// ```rust
/// use actix_http::Response;
/// use actix_http::http::header::{IfNoneMatch, EntityTag};
///
/// let mut builder = Response::Ok();
/// builder.set(
/// IfNoneMatch::Items(vec![
/// EntityTag::new(false, "xyzzy".to_owned()),
/// EntityTag::new(false, "foobar".to_owned()),
/// EntityTag::new(false, "bazquux".to_owned()),
/// ])
/// );
/// ```
(IfNoneMatch, IF_NONE_MATCH) => {Any / (EntityTag)+}
test_if_none_match {
test_header!(test1, vec![b"\"xyzzy\""]);
test_header!(test2, vec![b"W/\"xyzzy\""]);
test_header!(test3, vec![b"\"xyzzy\", \"r2d2xxxx\", \"c3piozzzz\""]);
test_header!(test4, vec![b"W/\"xyzzy\", W/\"r2d2xxxx\", W/\"c3piozzzz\""]);
test_header!(test5, vec![b"*"]);
}
}
#[cfg(test)]
mod tests {
use super::IfNoneMatch;
use crate::header::{EntityTag, Header, IF_NONE_MATCH};
use crate::test::TestRequest;
#[test]
fn test_if_none_match() {
let mut if_none_match: Result<IfNoneMatch, _>;
let req = TestRequest::with_header(IF_NONE_MATCH, "*").finish();
if_none_match = Header::parse(&req);
assert_eq!(if_none_match.ok(), Some(IfNoneMatch::Any));
let req =
TestRequest::with_header(IF_NONE_MATCH, &b"\"foobar\", W/\"weak-etag\""[..])
.finish();
if_none_match = Header::parse(&req);
let mut entities: Vec<EntityTag> = Vec::new();
let foobar_etag = EntityTag::new(false, "foobar".to_owned());
let weak_etag = EntityTag::new(true, "weak-etag".to_owned());
entities.push(foobar_etag);
entities.push(weak_etag);
assert_eq!(if_none_match.ok(), Some(IfNoneMatch::Items(entities)));
}
}

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use std::fmt::{self, Display, Write};
use crate::error::ParseError;
use crate::header::{
self, from_one_raw_str, EntityTag, Header, HeaderName, HeaderValue, HttpDate,
IntoHeaderValue, InvalidHeaderValueBytes, Writer,
};
use crate::httpmessage::HttpMessage;
/// `If-Range` header, defined in [RFC7233](http://tools.ietf.org/html/rfc7233#section-3.2)
///
/// If a client has a partial copy of a representation and wishes to have
/// an up-to-date copy of the entire representation, it could use the
/// Range header field with a conditional GET (using either or both of
/// If-Unmodified-Since and If-Match.) However, if the precondition
/// fails because the representation has been modified, the client would
/// then have to make a second request to obtain the entire current
/// representation.
///
/// The `If-Range` header field allows a client to \"short-circuit\" the
/// second request. Informally, its meaning is as follows: if the
/// representation is unchanged, send me the part(s) that I am requesting
/// in Range; otherwise, send me the entire representation.
///
/// # ABNF
///
/// ```text
/// If-Range = entity-tag / HTTP-date
/// ```
///
/// # Example values
///
/// * `Sat, 29 Oct 1994 19:43:31 GMT`
/// * `\"xyzzy\"`
///
/// # Examples
///
/// ```rust
/// use actix_http::Response;
/// use actix_http::http::header::{EntityTag, IfRange};
///
/// let mut builder = Response::Ok();
/// builder.set(IfRange::EntityTag(EntityTag::new(
/// false,
/// "xyzzy".to_owned(),
/// )));
/// ```
///
/// ```rust
/// use actix_http::Response;
/// use actix_http::http::header::IfRange;
/// use std::time::{Duration, SystemTime};
///
/// let mut builder = Response::Ok();
/// let fetched = SystemTime::now() - Duration::from_secs(60 * 60 * 24);
/// builder.set(IfRange::Date(fetched.into()));
/// ```
#[derive(Clone, Debug, PartialEq)]
pub enum IfRange {
/// The entity-tag the client has of the resource
EntityTag(EntityTag),
/// The date when the client retrieved the resource
Date(HttpDate),
}
impl Header for IfRange {
fn name() -> HeaderName {
header::IF_RANGE
}
#[inline]
fn parse<T>(msg: &T) -> Result<Self, ParseError>
where
T: HttpMessage,
{
let etag: Result<EntityTag, _> =
from_one_raw_str(msg.headers().get(header::IF_RANGE));
if let Ok(etag) = etag {
return Ok(IfRange::EntityTag(etag));
}
let date: Result<HttpDate, _> =
from_one_raw_str(msg.headers().get(header::IF_RANGE));
if let Ok(date) = date {
return Ok(IfRange::Date(date));
}
Err(ParseError::Header)
}
}
impl Display for IfRange {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
IfRange::EntityTag(ref x) => Display::fmt(x, f),
IfRange::Date(ref x) => Display::fmt(x, f),
}
}
}
impl IntoHeaderValue for IfRange {
type Error = InvalidHeaderValueBytes;
fn try_into(self) -> Result<HeaderValue, Self::Error> {
let mut writer = Writer::new();
let _ = write!(&mut writer, "{}", self);
HeaderValue::from_shared(writer.take())
}
}
#[cfg(test)]
mod test_if_range {
use super::IfRange as HeaderField;
use crate::header::*;
use std::str;
test_header!(test1, vec![b"Sat, 29 Oct 1994 19:43:31 GMT"]);
test_header!(test2, vec![b"\"xyzzy\""]);
test_header!(test3, vec![b"this-is-invalid"], None::<IfRange>);
}

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actix-http/src/header/common/if_unmodified_since.rs Normal file
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use crate::header::{HttpDate, IF_UNMODIFIED_SINCE};
header! {
/// `If-Unmodified-Since` header, defined in
/// [RFC7232](http://tools.ietf.org/html/rfc7232#section-3.4)
///
/// The `If-Unmodified-Since` header field makes the request method
/// conditional on the selected representation's last modification date
/// being earlier than or equal to the date provided in the field-value.
/// This field accomplishes the same purpose as If-Match for cases where
/// the user agent does not have an entity-tag for the representation.
///
/// # ABNF
///
/// ```text
/// If-Unmodified-Since = HTTP-date
/// ```
///
/// # Example values
///
/// * `Sat, 29 Oct 1994 19:43:31 GMT`
///
/// # Example
///
/// ```rust
/// use actix_http::Response;
/// use actix_http::http::header::IfUnmodifiedSince;
/// use std::time::{SystemTime, Duration};
///
/// let mut builder = Response::Ok();
/// let modified = SystemTime::now() - Duration::from_secs(60 * 60 * 24);
/// builder.set(IfUnmodifiedSince(modified.into()));
/// ```
(IfUnmodifiedSince, IF_UNMODIFIED_SINCE) => [HttpDate]
test_if_unmodified_since {
// Test case from RFC
test_header!(test1, vec![b"Sat, 29 Oct 1994 19:43:31 GMT"]);
}
}

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actix-http/src/header/common/last_modified.rs Normal file
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use crate::header::{HttpDate, LAST_MODIFIED};
header! {
/// `Last-Modified` header, defined in
/// [RFC7232](http://tools.ietf.org/html/rfc7232#section-2.2)
///
/// The `Last-Modified` header field in a response provides a timestamp
/// indicating the date and time at which the origin server believes the
/// selected representation was last modified, as determined at the
/// conclusion of handling the request.
///
/// # ABNF
///
/// ```text
/// Expires = HTTP-date
/// ```
///
/// # Example values
///
/// * `Sat, 29 Oct 1994 19:43:31 GMT`
///
/// # Example
///
/// ```rust
/// use actix_http::Response;
/// use actix_http::http::header::LastModified;
/// use std::time::{SystemTime, Duration};
///
/// let mut builder = Response::Ok();
/// let modified = SystemTime::now() - Duration::from_secs(60 * 60 * 24);
/// builder.set(LastModified(modified.into()));
/// ```
(LastModified, LAST_MODIFIED) => [HttpDate]
test_last_modified {
// Test case from RFC
test_header!(test1, vec![b"Sat, 29 Oct 1994 19:43:31 GMT"]);}
}

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//! A Collection of Header implementations for common HTTP Headers.
//!
//! ## Mime
//!
//! Several header fields use MIME values for their contents. Keeping with the
//! strongly-typed theme, the [mime](https://docs.rs/mime) crate
//! is used, such as `ContentType(pub Mime)`.
#![cfg_attr(rustfmt, rustfmt_skip)]
pub use self::accept_charset::AcceptCharset;
//pub use self::accept_encoding::AcceptEncoding;
pub use self::accept_language::AcceptLanguage;
pub use self::accept::Accept;
pub use self::allow::Allow;
pub use self::cache_control::{CacheControl, CacheDirective};
pub use self::content_disposition::{ContentDisposition, DispositionType, DispositionParam};
pub use self::content_language::ContentLanguage;
pub use self::content_range::{ContentRange, ContentRangeSpec};
pub use self::content_type::ContentType;
pub use self::date::Date;
pub use self::etag::ETag;
pub use self::expires::Expires;
pub use self::if_match::IfMatch;
pub use self::if_modified_since::IfModifiedSince;
pub use self::if_none_match::IfNoneMatch;
pub use self::if_range::IfRange;
pub use self::if_unmodified_since::IfUnmodifiedSince;
pub use self::last_modified::LastModified;
//pub use self::range::{Range, ByteRangeSpec};
#[doc(hidden)]
#[macro_export]
macro_rules! __hyper__deref {
($from:ty => $to:ty) => {
impl ::std::ops::Deref for $from {
type Target = $to;
#[inline]
fn deref(&self) -> &$to {
&self.0
}
}
impl ::std::ops::DerefMut for $from {
#[inline]
fn deref_mut(&mut self) -> &mut $to {
&mut self.0
}
}
}
}
#[doc(hidden)]
#[macro_export]
macro_rules! __hyper__tm {
($id:ident, $tm:ident{$($tf:item)*}) => {
#[allow(unused_imports)]
#[cfg(test)]
mod $tm{
use std::str;
use http::Method;
use mime::*;
use $crate::header::*;
use super::$id as HeaderField;
$($tf)*
}
}
}
#[doc(hidden)]
#[macro_export]
macro_rules! test_header {
($id:ident, $raw:expr) => {
#[test]
fn $id() {
use $crate::test;
use super::*;
let raw = $raw;
let a: Vec<Vec<u8>> = raw.iter().map(|x| x.to_vec()).collect();
let mut req = test::TestRequest::default();
for item in a {
req = req.header(HeaderField::name(), item).take();
}
let req = req.finish();
let value = HeaderField::parse(&req);
let result = format!("{}", value.unwrap());
let expected = String::from_utf8(raw[0].to_vec()).unwrap();
let result_cmp: Vec<String> = result
.to_ascii_lowercase()
.split(' ')
.map(|x| x.to_owned())
.collect();
let expected_cmp: Vec<String> = expected
.to_ascii_lowercase()
.split(' ')
.map(|x| x.to_owned())
.collect();
assert_eq!(result_cmp.concat(), expected_cmp.concat());
}
};
($id:ident, $raw:expr, $typed:expr) => {
#[test]
fn $id() {
use $crate::test;
let a: Vec<Vec<u8>> = $raw.iter().map(|x| x.to_vec()).collect();
let mut req = test::TestRequest::default();
for item in a {
req.header(HeaderField::name(), item);
}
let req = req.finish();
let val = HeaderField::parse(&req);
let typed: Option<HeaderField> = $typed;
// Test parsing
assert_eq!(val.ok(), typed);
// Test formatting
if typed.is_some() {
let raw = &($raw)[..];
let mut iter = raw.iter().map(|b|str::from_utf8(&b[..]).unwrap());
let mut joined = String::new();
joined.push_str(iter.next().unwrap());
for s in iter {
joined.push_str(", ");
joined.push_str(s);
}
assert_eq!(format!("{}", typed.unwrap()), joined);
}
}
}
}
#[macro_export]
macro_rules! header {
// $a:meta: Attributes associated with the header item (usually docs)
// $id:ident: Identifier of the header
// $n:expr: Lowercase name of the header
// $nn:expr: Nice name of the header
// List header, zero or more items
($(#[$a:meta])*($id:ident, $name:expr) => ($item:ty)*) => {
$(#[$a])*
#[derive(Clone, Debug, PartialEq)]
pub struct $id(pub Vec<$item>);
__hyper__deref!($id => Vec<$item>);
impl $crate::http::header::Header for $id {
#[inline]
fn name() -> $crate::http::header::HeaderName {
$name
}
#[inline]
fn parse<T>(msg: &T) -> Result<Self, $crate::error::ParseError>
where T: $crate::HttpMessage
{
$crate::http::header::from_comma_delimited(
msg.headers().get_all(Self::name())).map($id)
}
}
impl std::fmt::Display for $id {
#[inline]
fn fmt(&self, f: &mut std::fmt::Formatter) -> ::std::fmt::Result {
$crate::http::header::fmt_comma_delimited(f, &self.0[..])
}
}
impl $crate::http::header::IntoHeaderValue for $id {
type Error = $crate::http::header::InvalidHeaderValueBytes;
fn try_into(self) -> Result<$crate::http::header::HeaderValue, Self::Error> {
use std::fmt::Write;
let mut writer = $crate::http::header::Writer::new();
let _ = write!(&mut writer, "{}", self);
$crate::http::header::HeaderValue::from_shared(writer.take())
}
}
};
// List header, one or more items
($(#[$a:meta])*($id:ident, $name:expr) => ($item:ty)+) => {
$(#[$a])*
#[derive(Clone, Debug, PartialEq)]
pub struct $id(pub Vec<$item>);
__hyper__deref!($id => Vec<$item>);
impl $crate::http::header::Header for $id {
#[inline]
fn name() -> $crate::http::header::HeaderName {
$name
}
#[inline]
fn parse<T>(msg: &T) -> Result<Self, $crate::error::ParseError>
where T: $crate::HttpMessage
{
$crate::http::header::from_comma_delimited(
msg.headers().get_all(Self::name())).map($id)
}
}
impl std::fmt::Display for $id {
#[inline]
fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
$crate::http::header::fmt_comma_delimited(f, &self.0[..])
}
}
impl $crate::http::header::IntoHeaderValue for $id {
type Error = $crate::http::header::InvalidHeaderValueBytes;
fn try_into(self) -> Result<$crate::http::header::HeaderValue, Self::Error> {
use std::fmt::Write;
let mut writer = $crate::http::header::Writer::new();
let _ = write!(&mut writer, "{}", self);
$crate::http::header::HeaderValue::from_shared(writer.take())
}
}
};
// Single value header
($(#[$a:meta])*($id:ident, $name:expr) => [$value:ty]) => {
$(#[$a])*
#[derive(Clone, Debug, PartialEq)]
pub struct $id(pub $value);
__hyper__deref!($id => $value);
impl $crate::http::header::Header for $id {
#[inline]
fn name() -> $crate::http::header::HeaderName {
$name
}
#[inline]
fn parse<T>(msg: &T) -> Result<Self, $crate::error::ParseError>
where T: $crate::HttpMessage
{
$crate::http::header::from_one_raw_str(
msg.headers().get(Self::name())).map($id)
}
}
impl std::fmt::Display for $id {
#[inline]
fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
std::fmt::Display::fmt(&self.0, f)
}
}
impl $crate::http::header::IntoHeaderValue for $id {
type Error = $crate::http::header::InvalidHeaderValueBytes;
fn try_into(self) -> Result<$crate::http::header::HeaderValue, Self::Error> {
self.0.try_into()
}
}
};
// List header, one or more items with "*" option
($(#[$a:meta])*($id:ident, $name:expr) => {Any / ($item:ty)+}) => {
$(#[$a])*
#[derive(Clone, Debug, PartialEq)]
pub enum $id {
/// Any value is a match
Any,
/// Only the listed items are a match
Items(Vec<$item>),
}
impl $crate::http::header::Header for $id {
#[inline]
fn name() -> $crate::http::header::HeaderName {
$name
}
#[inline]
fn parse<T>(msg: &T) -> Result<Self, $crate::error::ParseError>
where T: $crate::HttpMessage
{
let any = msg.headers().get(Self::name()).and_then(|hdr| {
hdr.to_str().ok().and_then(|hdr| Some(hdr.trim() == "*"))});
if let Some(true) = any {
Ok($id::Any)
} else {
Ok($id::Items(
$crate::http::header::from_comma_delimited(
msg.headers().get_all(Self::name()))?))
}
}
}
impl std::fmt::Display for $id {
#[inline]
fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
match *self {
$id::Any => f.write_str("*"),
$id::Items(ref fields) => $crate::http::header::fmt_comma_delimited(
f, &fields[..])
}
}
}
impl $crate::http::header::IntoHeaderValue for $id {
type Error = $crate::http::header::InvalidHeaderValueBytes;
fn try_into(self) -> Result<$crate::http::header::HeaderValue, Self::Error> {
use std::fmt::Write;
let mut writer = $crate::http::header::Writer::new();
let _ = write!(&mut writer, "{}", self);
$crate::http::header::HeaderValue::from_shared(writer.take())
}
}
};
// optional test module
($(#[$a:meta])*($id:ident, $name:expr) => ($item:ty)* $tm:ident{$($tf:item)*}) => {
header! {
$(#[$a])*
($id, $name) => ($item)*
}
__hyper__tm! { $id, $tm { $($tf)* }}
};
($(#[$a:meta])*($id:ident, $n:expr) => ($item:ty)+ $tm:ident{$($tf:item)*}) => {
header! {
$(#[$a])*
($id, $n) => ($item)+
}
__hyper__tm! { $id, $tm { $($tf)* }}
};
($(#[$a:meta])*($id:ident, $name:expr) => [$item:ty] $tm:ident{$($tf:item)*}) => {
header! {
$(#[$a])* ($id, $name) => [$item]
}
__hyper__tm! { $id, $tm { $($tf)* }}
};
($(#[$a:meta])*($id:ident, $name:expr) => {Any / ($item:ty)+} $tm:ident{$($tf:item)*}) => {
header! {
$(#[$a])*
($id, $name) => {Any / ($item)+}
}
__hyper__tm! { $id, $tm { $($tf)* }}
};
}
mod accept_charset;
//mod accept_encoding;
mod accept_language;
mod accept;
mod allow;
mod cache_control;
mod content_disposition;
mod content_language;
mod content_range;
mod content_type;
mod date;
mod etag;
mod expires;
mod if_match;
mod if_modified_since;
mod if_none_match;
mod if_range;
mod if_unmodified_since;
mod last_modified;

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use std::fmt::{self, Display};
use std::str::FromStr;
use header::parsing::from_one_raw_str;
use header::{Header, Raw};
/// `Range` header, defined in [RFC7233](https://tools.ietf.org/html/rfc7233#section-3.1)
///
/// The "Range" header field on a GET request modifies the method
/// semantics to request transfer of only one or more subranges of the
/// selected representation data, rather than the entire selected
/// representation data.
///
/// # ABNF
///
/// ```text
/// Range = byte-ranges-specifier / other-ranges-specifier
/// other-ranges-specifier = other-range-unit "=" other-range-set
/// other-range-set = 1*VCHAR
///
/// bytes-unit = "bytes"
///
/// byte-ranges-specifier = bytes-unit "=" byte-range-set
/// byte-range-set = 1#(byte-range-spec / suffix-byte-range-spec)
/// byte-range-spec = first-byte-pos "-" [last-byte-pos]
/// first-byte-pos = 1*DIGIT
/// last-byte-pos = 1*DIGIT
/// ```
///
/// # Example values
///
/// * `bytes=1000-`
/// * `bytes=-2000`
/// * `bytes=0-1,30-40`
/// * `bytes=0-10,20-90,-100`
/// * `custom_unit=0-123`
/// * `custom_unit=xxx-yyy`
///
/// # Examples
///
/// ```
/// use hyper::header::{Headers, Range, ByteRangeSpec};
///
/// let mut headers = Headers::new();
/// headers.set(Range::Bytes(
/// vec![ByteRangeSpec::FromTo(1, 100), ByteRangeSpec::AllFrom(200)]
/// ));
///
/// headers.clear();
/// headers.set(Range::Unregistered("letters".to_owned(), "a-f".to_owned()));
/// ```
///
/// ```
/// use hyper::header::{Headers, Range};
///
/// let mut headers = Headers::new();
/// headers.set(Range::bytes(1, 100));
///
/// headers.clear();
/// headers.set(Range::bytes_multi(vec![(1, 100), (200, 300)]));
/// ```
#[derive(PartialEq, Clone, Debug)]
pub enum Range {
/// Byte range
Bytes(Vec<ByteRangeSpec>),
/// Custom range, with unit not registered at IANA
/// (`other-range-unit`: String , `other-range-set`: String)
Unregistered(String, String),
}
/// Each `Range::Bytes` header can contain one or more `ByteRangeSpecs`.
/// Each `ByteRangeSpec` defines a range of bytes to fetch
#[derive(PartialEq, Clone, Debug)]
pub enum ByteRangeSpec {
/// Get all bytes between x and y ("x-y")
FromTo(u64, u64),
/// Get all bytes starting from x ("x-")
AllFrom(u64),
/// Get last x bytes ("-x")
Last(u64),
}
impl ByteRangeSpec {
/// Given the full length of the entity, attempt to normalize the byte range
/// into an satisfiable end-inclusive (from, to) range.
///
/// The resulting range is guaranteed to be a satisfiable range within the
/// bounds of `0 <= from <= to < full_length`.
///
/// If the byte range is deemed unsatisfiable, `None` is returned.
/// An unsatisfiable range is generally cause for a server to either reject
/// the client request with a `416 Range Not Satisfiable` status code, or to
/// simply ignore the range header and serve the full entity using a `200
/// OK` status code.
///
/// This function closely follows [RFC 7233][1] section 2.1.
/// As such, it considers ranges to be satisfiable if they meet the
/// following conditions:
///
/// > If a valid byte-range-set includes at least one byte-range-spec with
/// a first-byte-pos that is less than the current length of the
/// representation, or at least one suffix-byte-range-spec with a
/// non-zero suffix-length, then the byte-range-set is satisfiable.
/// Otherwise, the byte-range-set is unsatisfiable.
///
/// The function also computes remainder ranges based on the RFC:
///
/// > If the last-byte-pos value is
/// absent, or if the value is greater than or equal to the current
/// length of the representation data, the byte range is interpreted as
/// the remainder of the representation (i.e., the server replaces the
/// value of last-byte-pos with a value that is one less than the current
/// length of the selected representation).
///
/// [1]: https://tools.ietf.org/html/rfc7233
pub fn to_satisfiable_range(&self, full_length: u64) -> Option<(u64, u64)> {
// If the full length is zero, there is no satisfiable end-inclusive range.
if full_length == 0 {
return None;
}
match self {
&ByteRangeSpec::FromTo(from, to) => {
if from < full_length && from <= to {
Some((from, ::std::cmp::min(to, full_length - 1)))
} else {
None
}
}
&ByteRangeSpec::AllFrom(from) => {
if from < full_length {
Some((from, full_length - 1))
} else {
None
}
}
&ByteRangeSpec::Last(last) => {
if last > 0 {
// From the RFC: If the selected representation is shorter
// than the specified suffix-length,
// the entire representation is used.
if last > full_length {
Some((0, full_length - 1))
} else {
Some((full_length - last, full_length - 1))
}
} else {
None
}
}
}
}
}
impl Range {
/// Get the most common byte range header ("bytes=from-to")
pub fn bytes(from: u64, to: u64) -> Range {
Range::Bytes(vec![ByteRangeSpec::FromTo(from, to)])
}
/// Get byte range header with multiple subranges
/// ("bytes=from1-to1,from2-to2,fromX-toX")
pub fn bytes_multi(ranges: Vec<(u64, u64)>) -> Range {
Range::Bytes(
ranges
.iter()
.map(|r| ByteRangeSpec::FromTo(r.0, r.1))
.collect(),
)
}
}
impl fmt::Display for ByteRangeSpec {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
ByteRangeSpec::FromTo(from, to) => write!(f, "{}-{}", from, to),
ByteRangeSpec::Last(pos) => write!(f, "-{}", pos),
ByteRangeSpec::AllFrom(pos) => write!(f, "{}-", pos),
}
}
}
impl fmt::Display for Range {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
Range::Bytes(ref ranges) => {
try!(write!(f, "bytes="));
for (i, range) in ranges.iter().enumerate() {
if i != 0 {
try!(f.write_str(","));
}
try!(Display::fmt(range, f));
}
Ok(())
}
Range::Unregistered(ref unit, ref range_str) => {
write!(f, "{}={}", unit, range_str)
}
}
}
}
impl FromStr for Range {
type Err = ::Error;
fn from_str(s: &str) -> ::Result<Range> {
let mut iter = s.splitn(2, '=');
match (iter.next(), iter.next()) {
(Some("bytes"), Some(ranges)) => {
let ranges = from_comma_delimited(ranges);
if ranges.is_empty() {
return Err(::Error::Header);
}
Ok(Range::Bytes(ranges))
}
(Some(unit), Some(range_str)) if unit != "" && range_str != "" => Ok(
Range::Unregistered(unit.to_owned(), range_str.to_owned()),
),
_ => Err(::Error::Header),
}
}
}
impl FromStr for ByteRangeSpec {
type Err = ::Error;
fn from_str(s: &str) -> ::Result<ByteRangeSpec> {
let mut parts = s.splitn(2, '-');
match (parts.next(), parts.next()) {
(Some(""), Some(end)) => end.parse()
.or(Err(::Error::Header))
.map(ByteRangeSpec::Last),
(Some(start), Some("")) => start
.parse()
.or(Err(::Error::Header))
.map(ByteRangeSpec::AllFrom),
(Some(start), Some(end)) => match (start.parse(), end.parse()) {
(Ok(start), Ok(end)) if start <= end => {
Ok(ByteRangeSpec::FromTo(start, end))
}
_ => Err(::Error::Header),
},
_ => Err(::Error::Header),
}
}
}
fn from_comma_delimited<T: FromStr>(s: &str) -> Vec<T> {
s.split(',')
.filter_map(|x| match x.trim() {
"" => None,
y => Some(y),
})
.filter_map(|x| x.parse().ok())
.collect()
}
impl Header for Range {
fn header_name() -> &'static str {
static NAME: &'static str = "Range";
NAME
}
fn parse_header(raw: &Raw) -> ::Result<Range> {
from_one_raw_str(raw)
}
fn fmt_header(&self, f: &mut ::header::Formatter) -> fmt::Result {
f.fmt_line(self)
}
}
#[test]
fn test_parse_bytes_range_valid() {
let r: Range = Header::parse_header(&"bytes=1-100".into()).unwrap();
let r2: Range = Header::parse_header(&"bytes=1-100,-".into()).unwrap();
let r3 = Range::bytes(1, 100);
assert_eq!(r, r2);
assert_eq!(r2, r3);
let r: Range = Header::parse_header(&"bytes=1-100,200-".into()).unwrap();
let r2: Range =
Header::parse_header(&"bytes= 1-100 , 101-xxx, 200- ".into()).unwrap();
let r3 = Range::Bytes(vec![
ByteRangeSpec::FromTo(1, 100),
ByteRangeSpec::AllFrom(200),
]);
assert_eq!(r, r2);
assert_eq!(r2, r3);
let r: Range = Header::parse_header(&"bytes=1-100,-100".into()).unwrap();
let r2: Range = Header::parse_header(&"bytes=1-100, ,,-100".into()).unwrap();
let r3 = Range::Bytes(vec![
ByteRangeSpec::FromTo(1, 100),
ByteRangeSpec::Last(100),
]);
assert_eq!(r, r2);
assert_eq!(r2, r3);
let r: Range = Header::parse_header(&"custom=1-100,-100".into()).unwrap();
let r2 = Range::Unregistered("custom".to_owned(), "1-100,-100".to_owned());
assert_eq!(r, r2);
}
#[test]
fn test_parse_unregistered_range_valid() {
let r: Range = Header::parse_header(&"custom=1-100,-100".into()).unwrap();
let r2 = Range::Unregistered("custom".to_owned(), "1-100,-100".to_owned());
assert_eq!(r, r2);
let r: Range = Header::parse_header(&"custom=abcd".into()).unwrap();
let r2 = Range::Unregistered("custom".to_owned(), "abcd".to_owned());
assert_eq!(r, r2);
let r: Range = Header::parse_header(&"custom=xxx-yyy".into()).unwrap();
let r2 = Range::Unregistered("custom".to_owned(), "xxx-yyy".to_owned());
assert_eq!(r, r2);
}
#[test]
fn test_parse_invalid() {
let r: ::Result<Range> = Header::parse_header(&"bytes=1-a,-".into());
assert_eq!(r.ok(), None);
let r: ::Result<Range> = Header::parse_header(&"bytes=1-2-3".into());
assert_eq!(r.ok(), None);
let r: ::Result<Range> = Header::parse_header(&"abc".into());
assert_eq!(r.ok(), None);
let r: ::Result<Range> = Header::parse_header(&"bytes=1-100=".into());
assert_eq!(r.ok(), None);
let r: ::Result<Range> = Header::parse_header(&"bytes=".into());
assert_eq!(r.ok(), None);
let r: ::Result<Range> = Header::parse_header(&"custom=".into());
assert_eq!(r.ok(), None);
let r: ::Result<Range> = Header::parse_header(&"=1-100".into());
assert_eq!(r.ok(), None);
}
#[test]
fn test_fmt() {
use header::Headers;
let mut headers = Headers::new();
headers.set(Range::Bytes(vec![
ByteRangeSpec::FromTo(0, 1000),
ByteRangeSpec::AllFrom(2000),
]));
assert_eq!(&headers.to_string(), "Range: bytes=0-1000,2000-\r\n");
headers.clear();
headers.set(Range::Bytes(vec![]));
assert_eq!(&headers.to_string(), "Range: bytes=\r\n");
headers.clear();
headers.set(Range::Unregistered(
"custom".to_owned(),
"1-xxx".to_owned(),
));
assert_eq!(&headers.to_string(), "Range: custom=1-xxx\r\n");
}
#[test]
fn test_byte_range_spec_to_satisfiable_range() {
assert_eq!(
Some((0, 0)),
ByteRangeSpec::FromTo(0, 0).to_satisfiable_range(3)
);
assert_eq!(
Some((1, 2)),
ByteRangeSpec::FromTo(1, 2).to_satisfiable_range(3)
);
assert_eq!(
Some((1, 2)),
ByteRangeSpec::FromTo(1, 5).to_satisfiable_range(3)
);
assert_eq!(
None,
ByteRangeSpec::FromTo(3, 3).to_satisfiable_range(3)
);
assert_eq!(
None,
ByteRangeSpec::FromTo(2, 1).to_satisfiable_range(3)
);
assert_eq!(
None,
ByteRangeSpec::FromTo(0, 0).to_satisfiable_range(0)
);
assert_eq!(
Some((0, 2)),
ByteRangeSpec::AllFrom(0).to_satisfiable_range(3)
);
assert_eq!(
Some((2, 2)),
ByteRangeSpec::AllFrom(2).to_satisfiable_range(3)
);
assert_eq!(
None,
ByteRangeSpec::AllFrom(3).to_satisfiable_range(3)
);
assert_eq!(
None,
ByteRangeSpec::AllFrom(5).to_satisfiable_range(3)
);
assert_eq!(
None,
ByteRangeSpec::AllFrom(0).to_satisfiable_range(0)
);
assert_eq!(
Some((1, 2)),
ByteRangeSpec::Last(2).to_satisfiable_range(3)
);
assert_eq!(
Some((2, 2)),
ByteRangeSpec::Last(1).to_satisfiable_range(3)
);
assert_eq!(
Some((0, 2)),
ByteRangeSpec::Last(5).to_satisfiable_range(3)
);
assert_eq!(None, ByteRangeSpec::Last(0).to_satisfiable_range(3));
assert_eq!(None, ByteRangeSpec::Last(2).to_satisfiable_range(0));
}

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//! Various http headers
// This is mostly copy of [hyper](https://github.com/hyperium/hyper/tree/master/src/header)
use std::{fmt, str::FromStr};
use bytes::{Bytes, BytesMut};
use http::header::GetAll;
use http::Error as HttpError;
use mime::Mime;
pub use http::header::*;
use crate::error::ParseError;
use crate::httpmessage::HttpMessage;
mod common;
mod shared;
#[doc(hidden)]
pub use self::common::*;
#[doc(hidden)]
pub use self::shared::*;
#[doc(hidden)]
/// A trait for any object that will represent a header field and value.
pub trait Header
where
Self: IntoHeaderValue,
{
/// Returns the name of the header field
fn name() -> HeaderName;
/// Parse a header
fn parse<T: HttpMessage>(msg: &T) -> Result<Self, ParseError>;
}
#[doc(hidden)]
/// A trait for any object that can be Converted to a `HeaderValue`
pub trait IntoHeaderValue: Sized {
/// The type returned in the event of a conversion error.
type Error: Into<HttpError>;
/// Try to convert value to a Header value.
fn try_into(self) -> Result<HeaderValue, Self::Error>;
}
impl IntoHeaderValue for HeaderValue {
type Error = InvalidHeaderValue;
#[inline]
fn try_into(self) -> Result<HeaderValue, Self::Error> {
Ok(self)
}
}
impl<'a> IntoHeaderValue for &'a str {
type Error = InvalidHeaderValue;
#[inline]
fn try_into(self) -> Result<HeaderValue, Self::Error> {
self.parse()
}
}
impl<'a> IntoHeaderValue for &'a [u8] {
type Error = InvalidHeaderValue;
#[inline]
fn try_into(self) -> Result<HeaderValue, Self::Error> {
HeaderValue::from_bytes(self)
}
}
impl IntoHeaderValue for Bytes {
type Error = InvalidHeaderValueBytes;
#[inline]
fn try_into(self) -> Result<HeaderValue, Self::Error> {
HeaderValue::from_shared(self)
}
}
impl IntoHeaderValue for Vec<u8> {
type Error = InvalidHeaderValueBytes;
#[inline]
fn try_into(self) -> Result<HeaderValue, Self::Error> {
HeaderValue::from_shared(Bytes::from(self))
}
}
impl IntoHeaderValue for String {
type Error = InvalidHeaderValueBytes;
#[inline]
fn try_into(self) -> Result<HeaderValue, Self::Error> {
HeaderValue::from_shared(Bytes::from(self))
}
}
impl IntoHeaderValue for Mime {
type Error = InvalidHeaderValueBytes;
#[inline]
fn try_into(self) -> Result<HeaderValue, Self::Error> {
HeaderValue::from_shared(Bytes::from(format!("{}", self)))
}
}
/// Represents supported types of content encodings
#[derive(Copy, Clone, PartialEq, Debug)]
pub enum ContentEncoding {
/// Automatically select encoding based on encoding negotiation
Auto,
/// A format using the Brotli algorithm
Br,
/// A format using the zlib structure with deflate algorithm
Deflate,
/// Gzip algorithm
Gzip,
/// Indicates the identity function (i.e. no compression, nor modification)
Identity,
}
impl ContentEncoding {
#[inline]
/// Is the content compressed?
pub fn is_compression(self) -> bool {
match self {
ContentEncoding::Identity | ContentEncoding::Auto => false,
_ => true,
}
}
#[inline]
/// Convert content encoding to string
pub fn as_str(self) -> &'static str {
match self {
ContentEncoding::Br => "br",
ContentEncoding::Gzip => "gzip",
ContentEncoding::Deflate => "deflate",
ContentEncoding::Identity | ContentEncoding::Auto => "identity",
}
}
#[inline]
/// default quality value
pub fn quality(self) -> f64 {
match self {
ContentEncoding::Br => 1.1,
ContentEncoding::Gzip => 1.0,
ContentEncoding::Deflate => 0.9,
ContentEncoding::Identity | ContentEncoding::Auto => 0.1,
}
}
}
impl<'a> From<&'a str> for ContentEncoding {
fn from(s: &'a str) -> ContentEncoding {
let s = s.trim();
if s.eq_ignore_ascii_case("br") {
ContentEncoding::Br
} else if s.eq_ignore_ascii_case("gzip") {
ContentEncoding::Gzip
} else if s.eq_ignore_ascii_case("deflate") {
ContentEncoding::Deflate
} else {
ContentEncoding::Identity
}
}
}
#[doc(hidden)]
pub(crate) struct Writer {
buf: BytesMut,
}
impl Writer {
fn new() -> Writer {
Writer {
buf: BytesMut::new(),
}
}
fn take(&mut self) -> Bytes {
self.buf.take().freeze()
}
}
impl fmt::Write for Writer {
#[inline]
fn write_str(&mut self, s: &str) -> fmt::Result {
self.buf.extend_from_slice(s.as_bytes());
Ok(())
}
#[inline]
fn write_fmt(&mut self, args: fmt::Arguments) -> fmt::Result {
fmt::write(self, args)
}
}
#[inline]
#[doc(hidden)]
/// Reads a comma-delimited raw header into a Vec.
pub fn from_comma_delimited<T: FromStr>(
all: GetAll<HeaderValue>,
) -> Result<Vec<T>, ParseError> {
let mut result = Vec::new();
for h in all {
let s = h.to_str().map_err(|_| ParseError::Header)?;
result.extend(
s.split(',')
.filter_map(|x| match x.trim() {
"" => None,
y => Some(y),
})
.filter_map(|x| x.trim().parse().ok()),
)
}
Ok(result)
}
#[inline]
#[doc(hidden)]
/// Reads a single string when parsing a header.
pub fn from_one_raw_str<T: FromStr>(val: Option<&HeaderValue>) -> Result<T, ParseError> {
if let Some(line) = val {
let line = line.to_str().map_err(|_| ParseError::Header)?;
if !line.is_empty() {
return T::from_str(line).or(Err(ParseError::Header));
}
}
Err(ParseError::Header)
}
#[inline]
#[doc(hidden)]
/// Format an array into a comma-delimited string.
pub fn fmt_comma_delimited<T>(f: &mut fmt::Formatter, parts: &[T]) -> fmt::Result
where
T: fmt::Display,
{
let mut iter = parts.iter();
if let Some(part) = iter.next() {
fmt::Display::fmt(part, f)?;
}
for part in iter {
f.write_str(", ")?;
fmt::Display::fmt(part, f)?;
}
Ok(())
}
// From hyper v0.11.27 src/header/parsing.rs
/// The value part of an extended parameter consisting of three parts:
/// the REQUIRED character set name (`charset`), the OPTIONAL language information (`language_tag`),
/// and a character sequence representing the actual value (`value`), separated by single quote
/// characters. It is defined in [RFC 5987](https://tools.ietf.org/html/rfc5987#section-3.2).
#[derive(Clone, Debug, PartialEq)]
pub struct ExtendedValue {
/// The character set that is used to encode the `value` to a string.
pub charset: Charset,
/// The human language details of the `value`, if available.
pub language_tag: Option<LanguageTag>,
/// The parameter value, as expressed in octets.
pub value: Vec<u8>,
}
/// Parses extended header parameter values (`ext-value`), as defined in
/// [RFC 5987](https://tools.ietf.org/html/rfc5987#section-3.2).
///
/// Extended values are denoted by parameter names that end with `*`.
///
/// ## ABNF
///
/// ```text
/// ext-value = charset "'" [ language ] "'" value-chars
/// ; like RFC 2231's <extended-initial-value>
/// ; (see [RFC2231], Section 7)
///
/// charset = "UTF-8" / "ISO-8859-1" / mime-charset
///
/// mime-charset = 1*mime-charsetc
/// mime-charsetc = ALPHA / DIGIT
/// / "!" / "#" / "$" / "%" / "&"
/// / "+" / "-" / "^" / "_" / "`"
/// / "{" / "}" / "~"
/// ; as <mime-charset> in Section 2.3 of [RFC2978]
/// ; except that the single quote is not included
/// ; SHOULD be registered in the IANA charset registry
///
/// language = <Language-Tag, defined in [RFC5646], Section 2.1>
///
/// value-chars = *( pct-encoded / attr-char )
///
/// pct-encoded = "%" HEXDIG HEXDIG
/// ; see [RFC3986], Section 2.1
///
/// attr-char = ALPHA / DIGIT
/// / "!" / "#" / "$" / "&" / "+" / "-" / "."
/// / "^" / "_" / "`" / "|" / "~"
/// ; token except ( "*" / "'" / "%" )
/// ```
pub fn parse_extended_value(
val: &str,
) -> Result<ExtendedValue, crate::error::ParseError> {
// Break into three pieces separated by the single-quote character
let mut parts = val.splitn(3, '\'');
// Interpret the first piece as a Charset
let charset: Charset = match parts.next() {
None => return Err(crate::error::ParseError::Header),
Some(n) => FromStr::from_str(n).map_err(|_| crate::error::ParseError::Header)?,
};
// Interpret the second piece as a language tag
let language_tag: Option<LanguageTag> = match parts.next() {
None => return Err(crate::error::ParseError::Header),
Some("") => None,
Some(s) => match s.parse() {
Ok(lt) => Some(lt),
Err(_) => return Err(crate::error::ParseError::Header),
},
};
// Interpret the third piece as a sequence of value characters
let value: Vec<u8> = match parts.next() {
None => return Err(crate::error::ParseError::Header),
Some(v) => percent_encoding::percent_decode(v.as_bytes()).collect(),
};
Ok(ExtendedValue {
value,
charset,
language_tag,
})
}
impl fmt::Display for ExtendedValue {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let encoded_value = percent_encoding::percent_encode(
&self.value[..],
self::percent_encoding_http::HTTP_VALUE,
);
if let Some(ref lang) = self.language_tag {
write!(f, "{}'{}'{}", self.charset, lang, encoded_value)
} else {
write!(f, "{}''{}", self.charset, encoded_value)
}
}
}
/// Percent encode a sequence of bytes with a character set defined in
/// [https://tools.ietf.org/html/rfc5987#section-3.2][url]
///
/// [url]: https://tools.ietf.org/html/rfc5987#section-3.2
pub fn http_percent_encode(f: &mut fmt::Formatter, bytes: &[u8]) -> fmt::Result {
let encoded =
percent_encoding::percent_encode(bytes, self::percent_encoding_http::HTTP_VALUE);
fmt::Display::fmt(&encoded, f)
}
mod percent_encoding_http {
use percent_encoding::{self, define_encode_set};
// internal module because macro is hard-coded to make a public item
// but we don't want to public export this item
define_encode_set! {
// This encode set is used for HTTP header values and is defined at
// https://tools.ietf.org/html/rfc5987#section-3.2
pub HTTP_VALUE = [percent_encoding::SIMPLE_ENCODE_SET] | {
' ', '"', '%', '\'', '(', ')', '*', ',', '/', ':', ';', '<', '-', '>', '?',
'[', '\\', ']', '{', '}'
}
}
}
#[cfg(test)]
mod tests {
use super::shared::Charset;
use super::{parse_extended_value, ExtendedValue};
use language_tags::LanguageTag;
#[test]
fn test_parse_extended_value_with_encoding_and_language_tag() {
let expected_language_tag = "en".parse::<LanguageTag>().unwrap();
// RFC 5987, Section 3.2.2
// Extended notation, using the Unicode character U+00A3 (POUND SIGN)
let result = parse_extended_value("iso-8859-1'en'%A3%20rates");
assert!(result.is_ok());
let extended_value = result.unwrap();
assert_eq!(Charset::Iso_8859_1, extended_value.charset);
assert!(extended_value.language_tag.is_some());
assert_eq!(expected_language_tag, extended_value.language_tag.unwrap());
assert_eq!(
vec![163, b' ', b'r', b'a', b't', b'e', b's'],
extended_value.value
);
}
#[test]
fn test_parse_extended_value_with_encoding() {
// RFC 5987, Section 3.2.2
// Extended notation, using the Unicode characters U+00A3 (POUND SIGN)
// and U+20AC (EURO SIGN)
let result = parse_extended_value("UTF-8''%c2%a3%20and%20%e2%82%ac%20rates");
assert!(result.is_ok());
let extended_value = result.unwrap();
assert_eq!(Charset::Ext("UTF-8".to_string()), extended_value.charset);
assert!(extended_value.language_tag.is_none());
assert_eq!(
vec![
194, 163, b' ', b'a', b'n', b'd', b' ', 226, 130, 172, b' ', b'r', b'a',
b't', b'e', b's',
],
extended_value.value
);
}
#[test]
fn test_parse_extended_value_missing_language_tag_and_encoding() {
// From: https://greenbytes.de/tech/tc2231/#attwithfn2231quot2
let result = parse_extended_value("foo%20bar.html");
assert!(result.is_err());
}
#[test]
fn test_parse_extended_value_partially_formatted() {
let result = parse_extended_value("UTF-8'missing third part");
assert!(result.is_err());
}
#[test]
fn test_parse_extended_value_partially_formatted_blank() {
let result = parse_extended_value("blank second part'");
assert!(result.is_err());
}
#[test]
fn test_fmt_extended_value_with_encoding_and_language_tag() {
let extended_value = ExtendedValue {
charset: Charset::Iso_8859_1,
language_tag: Some("en".parse().expect("Could not parse language tag")),
value: vec![163, b' ', b'r', b'a', b't', b'e', b's'],
};
assert_eq!("ISO-8859-1'en'%A3%20rates", format!("{}", extended_value));
}
#[test]
fn test_fmt_extended_value_with_encoding() {
let extended_value = ExtendedValue {
charset: Charset::Ext("UTF-8".to_string()),
language_tag: None,
value: vec![
194, 163, b' ', b'a', b'n', b'd', b' ', 226, 130, 172, b' ', b'r', b'a',
b't', b'e', b's',
],
};
assert_eq!(
"UTF-8''%C2%A3%20and%20%E2%82%AC%20rates",
format!("{}", extended_value)
);
}
}

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use std::fmt::{self, Display};
use std::str::FromStr;
use self::Charset::*;
/// A Mime charset.
///
/// The string representation is normalized to upper case.
///
/// See [http://www.iana.org/assignments/character-sets/character-sets.xhtml][url].
///
/// [url]: http://www.iana.org/assignments/character-sets/character-sets.xhtml
#[derive(Clone, Debug, PartialEq)]
#[allow(non_camel_case_types)]
pub enum Charset {
/// US ASCII
Us_Ascii,
/// ISO-8859-1
Iso_8859_1,
/// ISO-8859-2
Iso_8859_2,
/// ISO-8859-3
Iso_8859_3,
/// ISO-8859-4
Iso_8859_4,
/// ISO-8859-5
Iso_8859_5,
/// ISO-8859-6
Iso_8859_6,
/// ISO-8859-7
Iso_8859_7,
/// ISO-8859-8
Iso_8859_8,
/// ISO-8859-9
Iso_8859_9,
/// ISO-8859-10
Iso_8859_10,
/// Shift_JIS
Shift_Jis,
/// EUC-JP
Euc_Jp,
/// ISO-2022-KR
Iso_2022_Kr,
/// EUC-KR
Euc_Kr,
/// ISO-2022-JP
Iso_2022_Jp,
/// ISO-2022-JP-2
Iso_2022_Jp_2,
/// ISO-8859-6-E
Iso_8859_6_E,
/// ISO-8859-6-I
Iso_8859_6_I,
/// ISO-8859-8-E
Iso_8859_8_E,
/// ISO-8859-8-I
Iso_8859_8_I,
/// GB2312
Gb2312,
/// Big5
Big5,
/// KOI8-R
Koi8_R,
/// An arbitrary charset specified as a string
Ext(String),
}
impl Charset {
fn label(&self) -> &str {
match *self {
Us_Ascii => "US-ASCII",
Iso_8859_1 => "ISO-8859-1",
Iso_8859_2 => "ISO-8859-2",
Iso_8859_3 => "ISO-8859-3",
Iso_8859_4 => "ISO-8859-4",
Iso_8859_5 => "ISO-8859-5",
Iso_8859_6 => "ISO-8859-6",
Iso_8859_7 => "ISO-8859-7",
Iso_8859_8 => "ISO-8859-8",
Iso_8859_9 => "ISO-8859-9",
Iso_8859_10 => "ISO-8859-10",
Shift_Jis => "Shift-JIS",
Euc_Jp => "EUC-JP",
Iso_2022_Kr => "ISO-2022-KR",
Euc_Kr => "EUC-KR",
Iso_2022_Jp => "ISO-2022-JP",
Iso_2022_Jp_2 => "ISO-2022-JP-2",
Iso_8859_6_E => "ISO-8859-6-E",
Iso_8859_6_I => "ISO-8859-6-I",
Iso_8859_8_E => "ISO-8859-8-E",
Iso_8859_8_I => "ISO-8859-8-I",
Gb2312 => "GB2312",
Big5 => "big5",
Koi8_R => "KOI8-R",
Ext(ref s) => s,
}
}
}
impl Display for Charset {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.write_str(self.label())
}
}
impl FromStr for Charset {
type Err = crate::Error;
fn from_str(s: &str) -> crate::Result<Charset> {
Ok(match s.to_ascii_uppercase().as_ref() {
"US-ASCII" => Us_Ascii,
"ISO-8859-1" => Iso_8859_1,
"ISO-8859-2" => Iso_8859_2,
"ISO-8859-3" => Iso_8859_3,
"ISO-8859-4" => Iso_8859_4,
"ISO-8859-5" => Iso_8859_5,
"ISO-8859-6" => Iso_8859_6,
"ISO-8859-7" => Iso_8859_7,
"ISO-8859-8" => Iso_8859_8,
"ISO-8859-9" => Iso_8859_9,
"ISO-8859-10" => Iso_8859_10,
"SHIFT-JIS" => Shift_Jis,
"EUC-JP" => Euc_Jp,
"ISO-2022-KR" => Iso_2022_Kr,
"EUC-KR" => Euc_Kr,
"ISO-2022-JP" => Iso_2022_Jp,
"ISO-2022-JP-2" => Iso_2022_Jp_2,
"ISO-8859-6-E" => Iso_8859_6_E,
"ISO-8859-6-I" => Iso_8859_6_I,
"ISO-8859-8-E" => Iso_8859_8_E,
"ISO-8859-8-I" => Iso_8859_8_I,
"GB2312" => Gb2312,
"big5" => Big5,
"KOI8-R" => Koi8_R,
s => Ext(s.to_owned()),
})
}
}
#[test]
fn test_parse() {
assert_eq!(Us_Ascii, "us-ascii".parse().unwrap());
assert_eq!(Us_Ascii, "US-Ascii".parse().unwrap());
assert_eq!(Us_Ascii, "US-ASCII".parse().unwrap());
assert_eq!(Shift_Jis, "Shift-JIS".parse().unwrap());
assert_eq!(Ext("ABCD".to_owned()), "abcd".parse().unwrap());
}
#[test]
fn test_display() {
assert_eq!("US-ASCII", format!("{}", Us_Ascii));
assert_eq!("ABCD", format!("{}", Ext("ABCD".to_owned())));
}

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use std::{fmt, str};
pub use self::Encoding::{
Brotli, Chunked, Compress, Deflate, EncodingExt, Gzip, Identity, Trailers,
};
/// A value to represent an encoding used in `Transfer-Encoding`
/// or `Accept-Encoding` header.
#[derive(Clone, PartialEq, Debug)]
pub enum Encoding {
/// The `chunked` encoding.
Chunked,
/// The `br` encoding.
Brotli,
/// The `gzip` encoding.
Gzip,
/// The `deflate` encoding.
Deflate,
/// The `compress` encoding.
Compress,
/// The `identity` encoding.
Identity,
/// The `trailers` encoding.
Trailers,
/// Some other encoding that is less common, can be any String.
EncodingExt(String),
}
impl fmt::Display for Encoding {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.write_str(match *self {
Chunked => "chunked",
Brotli => "br",
Gzip => "gzip",
Deflate => "deflate",
Compress => "compress",
Identity => "identity",
Trailers => "trailers",
EncodingExt(ref s) => s.as_ref(),
})
}
}
impl str::FromStr for Encoding {
type Err = crate::error::ParseError;
fn from_str(s: &str) -> Result<Encoding, crate::error::ParseError> {
match s {
"chunked" => Ok(Chunked),
"br" => Ok(Brotli),
"deflate" => Ok(Deflate),
"gzip" => Ok(Gzip),
"compress" => Ok(Compress),
"identity" => Ok(Identity),
"trailers" => Ok(Trailers),
_ => Ok(EncodingExt(s.to_owned())),
}
}
}

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use std::fmt::{self, Display, Write};
use std::str::FromStr;
use crate::header::{HeaderValue, IntoHeaderValue, InvalidHeaderValueBytes, Writer};
/// check that each char in the slice is either:
/// 1. `%x21`, or
/// 2. in the range `%x23` to `%x7E`, or
/// 3. above `%x80`
fn check_slice_validity(slice: &str) -> bool {
slice
.bytes()
.all(|c| c == b'\x21' || (c >= b'\x23' && c <= b'\x7e') | (c >= b'\x80'))
}
/// An entity tag, defined in [RFC7232](https://tools.ietf.org/html/rfc7232#section-2.3)
///
/// An entity tag consists of a string enclosed by two literal double quotes.
/// Preceding the first double quote is an optional weakness indicator,
/// which always looks like `W/`. Examples for valid tags are `"xyzzy"` and
/// `W/"xyzzy"`.
///
/// # ABNF
///
/// ```text
/// entity-tag = [ weak ] opaque-tag
/// weak = %x57.2F ; "W/", case-sensitive
/// opaque-tag = DQUOTE *etagc DQUOTE
/// etagc = %x21 / %x23-7E / obs-text
/// ; VCHAR except double quotes, plus obs-text
/// ```
///
/// # Comparison
/// To check if two entity tags are equivalent in an application always use the
/// `strong_eq` or `weak_eq` methods based on the context of the Tag. Only use
/// `==` to check if two tags are identical.
///
/// The example below shows the results for a set of entity-tag pairs and
/// both the weak and strong comparison function results:
///
/// | `ETag 1`| `ETag 2`| Strong Comparison | Weak Comparison |
/// |---------|---------|-------------------|-----------------|
/// | `W/"1"` | `W/"1"` | no match | match |
/// | `W/"1"` | `W/"2"` | no match | no match |
/// | `W/"1"` | `"1"` | no match | match |
/// | `"1"` | `"1"` | match | match |
#[derive(Clone, Debug, Eq, PartialEq)]
pub struct EntityTag {
/// Weakness indicator for the tag
pub weak: bool,
/// The opaque string in between the DQUOTEs
tag: String,
}
impl EntityTag {
/// Constructs a new EntityTag.
/// # Panics
/// If the tag contains invalid characters.
pub fn new(weak: bool, tag: String) -> EntityTag {
assert!(check_slice_validity(&tag), "Invalid tag: {:?}", tag);
EntityTag { weak, tag }
}
/// Constructs a new weak EntityTag.
/// # Panics
/// If the tag contains invalid characters.
pub fn weak(tag: String) -> EntityTag {
EntityTag::new(true, tag)
}
/// Constructs a new strong EntityTag.
/// # Panics
/// If the tag contains invalid characters.
pub fn strong(tag: String) -> EntityTag {
EntityTag::new(false, tag)
}
/// Get the tag.
pub fn tag(&self) -> &str {
self.tag.as_ref()
}
/// Set the tag.
/// # Panics
/// If the tag contains invalid characters.
pub fn set_tag(&mut self, tag: String) {
assert!(check_slice_validity(&tag), "Invalid tag: {:?}", tag);
self.tag = tag
}
/// For strong comparison two entity-tags are equivalent if both are not
/// weak and their opaque-tags match character-by-character.
pub fn strong_eq(&self, other: &EntityTag) -> bool {
!self.weak && !other.weak && self.tag == other.tag
}
/// For weak comparison two entity-tags are equivalent if their
/// opaque-tags match character-by-character, regardless of either or
/// both being tagged as "weak".
pub fn weak_eq(&self, other: &EntityTag) -> bool {
self.tag == other.tag
}
/// The inverse of `EntityTag.strong_eq()`.
pub fn strong_ne(&self, other: &EntityTag) -> bool {
!self.strong_eq(other)
}
/// The inverse of `EntityTag.weak_eq()`.
pub fn weak_ne(&self, other: &EntityTag) -> bool {
!self.weak_eq(other)
}
}
impl Display for EntityTag {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
if self.weak {
write!(f, "W/\"{}\"", self.tag)
} else {
write!(f, "\"{}\"", self.tag)
}
}
}
impl FromStr for EntityTag {
type Err = crate::error::ParseError;
fn from_str(s: &str) -> Result<EntityTag, crate::error::ParseError> {
let length: usize = s.len();
let slice = &s[..];
// Early exits if it doesn't terminate in a DQUOTE.
if !slice.ends_with('"') || slice.len() < 2 {
return Err(crate::error::ParseError::Header);
}
// The etag is weak if its first char is not a DQUOTE.
if slice.len() >= 2
&& slice.starts_with('"')
&& check_slice_validity(&slice[1..length - 1])
{
// No need to check if the last char is a DQUOTE,
// we already did that above.
return Ok(EntityTag {
weak: false,
tag: slice[1..length - 1].to_owned(),
});
} else if slice.len() >= 4
&& slice.starts_with("W/\"")
&& check_slice_validity(&slice[3..length - 1])
{
return Ok(EntityTag {
weak: true,
tag: slice[3..length - 1].to_owned(),
});
}
Err(crate::error::ParseError::Header)
}
}
impl IntoHeaderValue for EntityTag {
type Error = InvalidHeaderValueBytes;
fn try_into(self) -> Result<HeaderValue, Self::Error> {
let mut wrt = Writer::new();
write!(wrt, "{}", self).unwrap();
HeaderValue::from_shared(wrt.take())
}
}
#[cfg(test)]
mod tests {
use super::EntityTag;
#[test]
fn test_etag_parse_success() {
// Expected success
assert_eq!(
"\"foobar\"".parse::<EntityTag>().unwrap(),
EntityTag::strong("foobar".to_owned())
);
assert_eq!(
"\"\"".parse::<EntityTag>().unwrap(),
EntityTag::strong("".to_owned())
);
assert_eq!(
"W/\"weaktag\"".parse::<EntityTag>().unwrap(),
EntityTag::weak("weaktag".to_owned())
);
assert_eq!(
"W/\"\x65\x62\"".parse::<EntityTag>().unwrap(),
EntityTag::weak("\x65\x62".to_owned())
);
assert_eq!(
"W/\"\"".parse::<EntityTag>().unwrap(),
EntityTag::weak("".to_owned())
);
}
#[test]
fn test_etag_parse_failures() {
// Expected failures
assert!("no-dquotes".parse::<EntityTag>().is_err());
assert!("w/\"the-first-w-is-case-sensitive\""
.parse::<EntityTag>()
.is_err());
assert!("".parse::<EntityTag>().is_err());
assert!("\"unmatched-dquotes1".parse::<EntityTag>().is_err());
assert!("unmatched-dquotes2\"".parse::<EntityTag>().is_err());
assert!("matched-\"dquotes\"".parse::<EntityTag>().is_err());
}
#[test]
fn test_etag_fmt() {
assert_eq!(
format!("{}", EntityTag::strong("foobar".to_owned())),
"\"foobar\""
);
assert_eq!(format!("{}", EntityTag::strong("".to_owned())), "\"\"");
assert_eq!(
format!("{}", EntityTag::weak("weak-etag".to_owned())),
"W/\"weak-etag\""
);
assert_eq!(
format!("{}", EntityTag::weak("\u{0065}".to_owned())),
"W/\"\x65\""
);
assert_eq!(format!("{}", EntityTag::weak("".to_owned())), "W/\"\"");
}
#[test]
fn test_cmp() {
// | ETag 1 | ETag 2 | Strong Comparison | Weak Comparison |
// |---------|---------|-------------------|-----------------|
// | `W/"1"` | `W/"1"` | no match | match |
// | `W/"1"` | `W/"2"` | no match | no match |
// | `W/"1"` | `"1"` | no match | match |
// | `"1"` | `"1"` | match | match |
let mut etag1 = EntityTag::weak("1".to_owned());
let mut etag2 = EntityTag::weak("1".to_owned());
assert!(!etag1.strong_eq(&etag2));
assert!(etag1.weak_eq(&etag2));
assert!(etag1.strong_ne(&etag2));
assert!(!etag1.weak_ne(&etag2));
etag1 = EntityTag::weak("1".to_owned());
etag2 = EntityTag::weak("2".to_owned());
assert!(!etag1.strong_eq(&etag2));
assert!(!etag1.weak_eq(&etag2));
assert!(etag1.strong_ne(&etag2));
assert!(etag1.weak_ne(&etag2));
etag1 = EntityTag::weak("1".to_owned());
etag2 = EntityTag::strong("1".to_owned());
assert!(!etag1.strong_eq(&etag2));
assert!(etag1.weak_eq(&etag2));
assert!(etag1.strong_ne(&etag2));
assert!(!etag1.weak_ne(&etag2));
etag1 = EntityTag::strong("1".to_owned());
etag2 = EntityTag::strong("1".to_owned());
assert!(etag1.strong_eq(&etag2));
assert!(etag1.weak_eq(&etag2));
assert!(!etag1.strong_ne(&etag2));
assert!(!etag1.weak_ne(&etag2));
}
}

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use std::fmt::{self, Display};
use std::io::Write;
use std::str::FromStr;
use std::time::{Duration, SystemTime, UNIX_EPOCH};
use bytes::{BufMut, BytesMut};
use http::header::{HeaderValue, InvalidHeaderValueBytes};
use crate::error::ParseError;
use crate::header::IntoHeaderValue;
/// A timestamp with HTTP formatting and parsing
#[derive(Clone, Copy, Debug, PartialEq, Eq, PartialOrd, Ord)]
pub struct HttpDate(time::Tm);
impl FromStr for HttpDate {
type Err = ParseError;
fn from_str(s: &str) -> Result<HttpDate, ParseError> {
match time::strptime(s, "%a, %d %b %Y %T %Z")
.or_else(|_| time::strptime(s, "%A, %d-%b-%y %T %Z"))
.or_else(|_| time::strptime(s, "%c"))
{
Ok(t) => Ok(HttpDate(t)),
Err(_) => Err(ParseError::Header),
}
}
}
impl Display for HttpDate {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
fmt::Display::fmt(&self.0.to_utc().rfc822(), f)
}
}
impl From<time::Tm> for HttpDate {
fn from(tm: time::Tm) -> HttpDate {
HttpDate(tm)
}
}
impl From<SystemTime> for HttpDate {
fn from(sys: SystemTime) -> HttpDate {
let tmspec = match sys.duration_since(UNIX_EPOCH) {
Ok(dur) => {
time::Timespec::new(dur.as_secs() as i64, dur.subsec_nanos() as i32)
}
Err(err) => {
let neg = err.duration();
time::Timespec::new(
-(neg.as_secs() as i64),
-(neg.subsec_nanos() as i32),
)
}
};
HttpDate(time::at_utc(tmspec))
}
}
impl IntoHeaderValue for HttpDate {
type Error = InvalidHeaderValueBytes;
fn try_into(self) -> Result<HeaderValue, Self::Error> {
let mut wrt = BytesMut::with_capacity(29).writer();
write!(wrt, "{}", self.0.rfc822()).unwrap();
HeaderValue::from_shared(wrt.get_mut().take().freeze())
}
}
impl From<HttpDate> for SystemTime {
fn from(date: HttpDate) -> SystemTime {
let spec = date.0.to_timespec();
if spec.sec >= 0 {
UNIX_EPOCH + Duration::new(spec.sec as u64, spec.nsec as u32)
} else {
UNIX_EPOCH - Duration::new(spec.sec as u64, spec.nsec as u32)
}
}
}
#[cfg(test)]
mod tests {
use super::HttpDate;
use time::Tm;
const NOV_07: HttpDate = HttpDate(Tm {
tm_nsec: 0,
tm_sec: 37,
tm_min: 48,
tm_hour: 8,
tm_mday: 7,
tm_mon: 10,
tm_year: 94,
tm_wday: 0,
tm_isdst: 0,
tm_yday: 0,
tm_utcoff: 0,
});
#[test]
fn test_date() {
assert_eq!(
"Sun, 07 Nov 1994 08:48:37 GMT".parse::<HttpDate>().unwrap(),
NOV_07
);
assert_eq!(
"Sunday, 07-Nov-94 08:48:37 GMT"
.parse::<HttpDate>()
.unwrap(),
NOV_07
);
assert_eq!(
"Sun Nov 7 08:48:37 1994".parse::<HttpDate>().unwrap(),
NOV_07
);
assert!("this-is-no-date".parse::<HttpDate>().is_err());
}
}

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//! Copied for `hyper::header::shared`;
pub use self::charset::Charset;
pub use self::encoding::Encoding;
pub use self::entity::EntityTag;
pub use self::httpdate::HttpDate;
pub use self::quality_item::{q, qitem, Quality, QualityItem};
pub use language_tags::LanguageTag;
mod charset;
mod encoding;
mod entity;
mod httpdate;
mod quality_item;

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actix-http/src/header/shared/quality_item.rs Normal file
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use std::{cmp, fmt, str};
use self::internal::IntoQuality;
/// Represents a quality used in quality values.
///
/// Can be created with the `q` function.
///
/// # Implementation notes
///
/// The quality value is defined as a number between 0 and 1 with three decimal
/// places. This means there are 1001 possible values. Since floating point
/// numbers are not exact and the smallest floating point data type (`f32`)
/// consumes four bytes, hyper uses an `u16` value to store the
/// quality internally. For performance reasons you may set quality directly to
/// a value between 0 and 1000 e.g. `Quality(532)` matches the quality
/// `q=0.532`.
///
/// [RFC7231 Section 5.3.1](https://tools.ietf.org/html/rfc7231#section-5.3.1)
/// gives more information on quality values in HTTP header fields.
#[derive(Copy, Clone, Debug, Eq, Ord, PartialEq, PartialOrd)]
pub struct Quality(u16);
impl Default for Quality {
fn default() -> Quality {
Quality(1000)
}
}
/// Represents an item with a quality value as defined in
/// [RFC7231](https://tools.ietf.org/html/rfc7231#section-5.3.1).
#[derive(Clone, PartialEq, Debug)]
pub struct QualityItem<T> {
/// The actual contents of the field.
pub item: T,
/// The quality (client or server preference) for the value.
pub quality: Quality,
}
impl<T> QualityItem<T> {
/// Creates a new `QualityItem` from an item and a quality.
/// The item can be of any type.
/// The quality should be a value in the range [0, 1].
pub fn new(item: T, quality: Quality) -> QualityItem<T> {
QualityItem { item, quality }
}
}
impl<T: PartialEq> cmp::PartialOrd for QualityItem<T> {
fn partial_cmp(&self, other: &QualityItem<T>) -> Option<cmp::Ordering> {
self.quality.partial_cmp(&other.quality)
}
}
impl<T: fmt::Display> fmt::Display for QualityItem<T> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
fmt::Display::fmt(&self.item, f)?;
match self.quality.0 {
1000 => Ok(()),
0 => f.write_str("; q=0"),
x => write!(f, "; q=0.{}", format!("{:03}", x).trim_end_matches('0')),
}
}
}
impl<T: str::FromStr> str::FromStr for QualityItem<T> {
type Err = crate::error::ParseError;
fn from_str(s: &str) -> Result<QualityItem<T>, crate::error::ParseError> {
if !s.is_ascii() {
return Err(crate::error::ParseError::Header);
}
// Set defaults used if parsing fails.
let mut raw_item = s;
let mut quality = 1f32;
let parts: Vec<&str> = s.rsplitn(2, ';').map(|x| x.trim()).collect();
if parts.len() == 2 {
if parts[0].len() < 2 {
return Err(crate::error::ParseError::Header);
}
let start = &parts[0][0..2];
if start == "q=" || start == "Q=" {
let q_part = &parts[0][2..parts[0].len()];
if q_part.len() > 5 {
return Err(crate::error::ParseError::Header);
}
match q_part.parse::<f32>() {
Ok(q_value) => {
if 0f32 <= q_value && q_value <= 1f32 {
quality = q_value;
raw_item = parts[1];
} else {
return Err(crate::error::ParseError::Header);
}
}
Err(_) => return Err(crate::error::ParseError::Header),
}
}
}
match raw_item.parse::<T>() {
// we already checked above that the quality is within range
Ok(item) => Ok(QualityItem::new(item, from_f32(quality))),
Err(_) => Err(crate::error::ParseError::Header),
}
}
}
#[inline]
fn from_f32(f: f32) -> Quality {
// this function is only used internally. A check that `f` is within range
// should be done before calling this method. Just in case, this
// debug_assert should catch if we were forgetful
debug_assert!(
f >= 0f32 && f <= 1f32,
"q value must be between 0.0 and 1.0"
);
Quality((f * 1000f32) as u16)
}
/// Convenience function to wrap a value in a `QualityItem`
/// Sets `q` to the default 1.0
pub fn qitem<T>(item: T) -> QualityItem<T> {
QualityItem::new(item, Default::default())
}
/// Convenience function to create a `Quality` from a float or integer.
///
/// Implemented for `u16` and `f32`. Panics if value is out of range.
pub fn q<T: IntoQuality>(val: T) -> Quality {
val.into_quality()
}
mod internal {
use super::Quality;
// TryFrom is probably better, but it's not stable. For now, we want to
// keep the functionality of the `q` function, while allowing it to be
// generic over `f32` and `u16`.
//
// `q` would panic before, so keep that behavior. `TryFrom` can be
// introduced later for a non-panicking conversion.
pub trait IntoQuality: Sealed + Sized {
fn into_quality(self) -> Quality;
}
impl IntoQuality for f32 {
fn into_quality(self) -> Quality {
assert!(
self >= 0f32 && self <= 1f32,
"float must be between 0.0 and 1.0"
);
super::from_f32(self)
}
}
impl IntoQuality for u16 {
fn into_quality(self) -> Quality {
assert!(self <= 1000, "u16 must be between 0 and 1000");
Quality(self)
}
}
pub trait Sealed {}
impl Sealed for u16 {}
impl Sealed for f32 {}
}
#[cfg(test)]
mod tests {
use super::super::encoding::*;
use super::*;
#[test]
fn test_quality_item_fmt_q_1() {
let x = qitem(Chunked);
assert_eq!(format!("{}", x), "chunked");
}
#[test]
fn test_quality_item_fmt_q_0001() {
let x = QualityItem::new(Chunked, Quality(1));
assert_eq!(format!("{}", x), "chunked; q=0.001");
}
#[test]
fn test_quality_item_fmt_q_05() {
// Custom value
let x = QualityItem {
item: EncodingExt("identity".to_owned()),
quality: Quality(500),
};
assert_eq!(format!("{}", x), "identity; q=0.5");
}
#[test]
fn test_quality_item_fmt_q_0() {
// Custom value
let x = QualityItem {
item: EncodingExt("identity".to_owned()),
quality: Quality(0),
};
assert_eq!(x.to_string(), "identity; q=0");
}
#[test]
fn test_quality_item_from_str1() {
let x: Result<QualityItem<Encoding>, _> = "chunked".parse();
assert_eq!(
x.unwrap(),
QualityItem {
item: Chunked,
quality: Quality(1000),
}
);
}
#[test]
fn test_quality_item_from_str2() {
let x: Result<QualityItem<Encoding>, _> = "chunked; q=1".parse();
assert_eq!(
x.unwrap(),
QualityItem {
item: Chunked,
quality: Quality(1000),
}
);
}
#[test]
fn test_quality_item_from_str3() {
let x: Result<QualityItem<Encoding>, _> = "gzip; q=0.5".parse();
assert_eq!(
x.unwrap(),
QualityItem {
item: Gzip,
quality: Quality(500),
}
);
}
#[test]
fn test_quality_item_from_str4() {
let x: Result<QualityItem<Encoding>, _> = "gzip; q=0.273".parse();
assert_eq!(
x.unwrap(),
QualityItem {
item: Gzip,
quality: Quality(273),
}
);
}
#[test]
fn test_quality_item_from_str5() {
let x: Result<QualityItem<Encoding>, _> = "gzip; q=0.2739999".parse();
assert!(x.is_err());
}
#[test]
fn test_quality_item_from_str6() {
let x: Result<QualityItem<Encoding>, _> = "gzip; q=2".parse();
assert!(x.is_err());
}
#[test]
fn test_quality_item_ordering() {
let x: QualityItem<Encoding> = "gzip; q=0.5".parse().ok().unwrap();
let y: QualityItem<Encoding> = "gzip; q=0.273".parse().ok().unwrap();
let comparision_result: bool = x.gt(&y);
assert!(comparision_result)
}
#[test]
fn test_quality() {
assert_eq!(q(0.5), Quality(500));
}
#[test]
#[should_panic] // FIXME - 32-bit msvc unwinding broken
#[cfg_attr(all(target_arch = "x86", target_env = "msvc"), ignore)]
fn test_quality_invalid() {
q(-1.0);
}
#[test]
#[should_panic] // FIXME - 32-bit msvc unwinding broken
#[cfg_attr(all(target_arch = "x86", target_env = "msvc"), ignore)]
fn test_quality_invalid2() {
q(2.0);
}
#[test]
fn test_fuzzing_bugs() {
assert!("99999;".parse::<QualityItem<String>>().is_err());
assert!("\x0d;;;=\u{d6aa}==".parse::<QualityItem<String>>().is_err())
}
}

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use bytes::{BufMut, BytesMut};
use http::Version;
use std::{mem, ptr, slice};
const DEC_DIGITS_LUT: &[u8] = b"0001020304050607080910111213141516171819\
2021222324252627282930313233343536373839\
4041424344454647484950515253545556575859\
6061626364656667686970717273747576777879\
8081828384858687888990919293949596979899";
pub(crate) const STATUS_LINE_BUF_SIZE: usize = 13;
pub(crate) fn write_status_line(version: Version, mut n: u16, bytes: &mut BytesMut) {
let mut buf: [u8; STATUS_LINE_BUF_SIZE] = [
b'H', b'T', b'T', b'P', b'/', b'1', b'.', b'1', b' ', b' ', b' ', b' ', b' ',
];
match version {
Version::HTTP_2 => buf[5] = b'2',
Version::HTTP_10 => buf[7] = b'0',
Version::HTTP_09 => {
buf[5] = b'0';
buf[7] = b'9';
}
_ => (),
}
let mut curr: isize = 12;
let buf_ptr = buf.as_mut_ptr();
let lut_ptr = DEC_DIGITS_LUT.as_ptr();
let four = n > 999;
// decode 2 more chars, if > 2 chars
let d1 = (n % 100) << 1;
n /= 100;
curr -= 2;
unsafe {
ptr::copy_nonoverlapping(lut_ptr.offset(d1 as isize), buf_ptr.offset(curr), 2);
}
// decode last 1 or 2 chars
if n < 10 {
curr -= 1;
unsafe {
*buf_ptr.offset(curr) = (n as u8) + b'0';
}
} else {
let d1 = n << 1;
curr -= 2;
unsafe {
ptr::copy_nonoverlapping(
lut_ptr.offset(d1 as isize),
buf_ptr.offset(curr),
2,
);
}
}
bytes.put_slice(&buf);
if four {
bytes.put(b' ');
}
}
/// NOTE: bytes object has to contain enough space
pub fn write_content_length(mut n: usize, bytes: &mut BytesMut) {
if n < 10 {
let mut buf: [u8; 21] = [
b'\r', b'\n', b'c', b'o', b'n', b't', b'e', b'n', b't', b'-', b'l', b'e',
b'n', b'g', b't', b'h', b':', b' ', b'0', b'\r', b'\n',
];
buf[18] = (n as u8) + b'0';
bytes.put_slice(&buf);
} else if n < 100 {
let mut buf: [u8; 22] = [
b'\r', b'\n', b'c', b'o', b'n', b't', b'e', b'n', b't', b'-', b'l', b'e',
b'n', b'g', b't', b'h', b':', b' ', b'0', b'0', b'\r', b'\n',
];
let d1 = n << 1;
unsafe {
ptr::copy_nonoverlapping(
DEC_DIGITS_LUT.as_ptr().add(d1),
buf.as_mut_ptr().offset(18),
2,
);
}
bytes.put_slice(&buf);
} else if n < 1000 {
let mut buf: [u8; 23] = [
b'\r', b'\n', b'c', b'o', b'n', b't', b'e', b'n', b't', b'-', b'l', b'e',
b'n', b'g', b't', b'h', b':', b' ', b'0', b'0', b'0', b'\r', b'\n',
];
// decode 2 more chars, if > 2 chars
let d1 = (n % 100) << 1;
n /= 100;
unsafe {
ptr::copy_nonoverlapping(
DEC_DIGITS_LUT.as_ptr().add(d1),
buf.as_mut_ptr().offset(19),
2,
)
};
// decode last 1
buf[18] = (n as u8) + b'0';
bytes.put_slice(&buf);
} else {
bytes.put_slice(b"\r\ncontent-length: ");
convert_usize(n, bytes);
}
}
pub(crate) fn convert_usize(mut n: usize, bytes: &mut BytesMut) {
let mut curr: isize = 39;
let mut buf: [u8; 41] = unsafe { mem::uninitialized() };
buf[39] = b'\r';
buf[40] = b'\n';
let buf_ptr = buf.as_mut_ptr();
let lut_ptr = DEC_DIGITS_LUT.as_ptr();
// eagerly decode 4 characters at a time
while n >= 10_000 {
let rem = (n % 10_000) as isize;
n /= 10_000;
let d1 = (rem / 100) << 1;
let d2 = (rem % 100) << 1;
curr -= 4;
unsafe {
ptr::copy_nonoverlapping(lut_ptr.offset(d1), buf_ptr.offset(curr), 2);
ptr::copy_nonoverlapping(lut_ptr.offset(d2), buf_ptr.offset(curr + 2), 2);
}
}
// if we reach here numbers are <= 9999, so at most 4 chars long
let mut n = n as isize; // possibly reduce 64bit math
// decode 2 more chars, if > 2 chars
if n >= 100 {
let d1 = (n % 100) << 1;
n /= 100;
curr -= 2;
unsafe {
ptr::copy_nonoverlapping(lut_ptr.offset(d1), buf_ptr.offset(curr), 2);
}
}
// decode last 1 or 2 chars
if n < 10 {
curr -= 1;
unsafe {
*buf_ptr.offset(curr) = (n as u8) + b'0';
}
} else {
let d1 = n << 1;
curr -= 2;
unsafe {
ptr::copy_nonoverlapping(lut_ptr.offset(d1), buf_ptr.offset(curr), 2);
}
}
unsafe {
bytes.extend_from_slice(slice::from_raw_parts(
buf_ptr.offset(curr),
41 - curr as usize,
));
}
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_write_content_length() {
let mut bytes = BytesMut::new();
bytes.reserve(50);
write_content_length(0, &mut bytes);
assert_eq!(bytes.take().freeze(), b"\r\ncontent-length: 0\r\n"[..]);
bytes.reserve(50);
write_content_length(9, &mut bytes);
assert_eq!(bytes.take().freeze(), b"\r\ncontent-length: 9\r\n"[..]);
bytes.reserve(50);
write_content_length(10, &mut bytes);
assert_eq!(bytes.take().freeze(), b"\r\ncontent-length: 10\r\n"[..]);
bytes.reserve(50);
write_content_length(99, &mut bytes);
assert_eq!(bytes.take().freeze(), b"\r\ncontent-length: 99\r\n"[..]);
bytes.reserve(50);
write_content_length(100, &mut bytes);
assert_eq!(bytes.take().freeze(), b"\r\ncontent-length: 100\r\n"[..]);
bytes.reserve(50);
write_content_length(101, &mut bytes);
assert_eq!(bytes.take().freeze(), b"\r\ncontent-length: 101\r\n"[..]);
bytes.reserve(50);
write_content_length(998, &mut bytes);
assert_eq!(bytes.take().freeze(), b"\r\ncontent-length: 998\r\n"[..]);
bytes.reserve(50);
write_content_length(1000, &mut bytes);
assert_eq!(bytes.take().freeze(), b"\r\ncontent-length: 1000\r\n"[..]);
bytes.reserve(50);
write_content_length(1001, &mut bytes);
assert_eq!(bytes.take().freeze(), b"\r\ncontent-length: 1001\r\n"[..]);
bytes.reserve(50);
write_content_length(5909, &mut bytes);
assert_eq!(bytes.take().freeze(), b"\r\ncontent-length: 5909\r\n"[..]);
}
}

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//! Basic http responses
#![allow(non_upper_case_globals)]
use http::StatusCode;
use crate::response::{Response, ResponseBuilder};
macro_rules! STATIC_RESP {
($name:ident, $status:expr) => {
#[allow(non_snake_case, missing_docs)]
pub fn $name() -> ResponseBuilder {
Response::build($status)
}
};
}
impl Response {
STATIC_RESP!(Ok, StatusCode::OK);
STATIC_RESP!(Created, StatusCode::CREATED);
STATIC_RESP!(Accepted, StatusCode::ACCEPTED);
STATIC_RESP!(
NonAuthoritativeInformation,
StatusCode::NON_AUTHORITATIVE_INFORMATION
);
STATIC_RESP!(NoContent, StatusCode::NO_CONTENT);
STATIC_RESP!(ResetContent, StatusCode::RESET_CONTENT);
STATIC_RESP!(PartialContent, StatusCode::PARTIAL_CONTENT);
STATIC_RESP!(MultiStatus, StatusCode::MULTI_STATUS);
STATIC_RESP!(AlreadyReported, StatusCode::ALREADY_REPORTED);
STATIC_RESP!(MultipleChoices, StatusCode::MULTIPLE_CHOICES);
STATIC_RESP!(MovedPermanenty, StatusCode::MOVED_PERMANENTLY);
STATIC_RESP!(MovedPermanently, StatusCode::MOVED_PERMANENTLY);
STATIC_RESP!(Found, StatusCode::FOUND);
STATIC_RESP!(SeeOther, StatusCode::SEE_OTHER);
STATIC_RESP!(NotModified, StatusCode::NOT_MODIFIED);
STATIC_RESP!(UseProxy, StatusCode::USE_PROXY);
STATIC_RESP!(TemporaryRedirect, StatusCode::TEMPORARY_REDIRECT);
STATIC_RESP!(PermanentRedirect, StatusCode::PERMANENT_REDIRECT);
STATIC_RESP!(BadRequest, StatusCode::BAD_REQUEST);
STATIC_RESP!(NotFound, StatusCode::NOT_FOUND);
STATIC_RESP!(Unauthorized, StatusCode::UNAUTHORIZED);
STATIC_RESP!(PaymentRequired, StatusCode::PAYMENT_REQUIRED);
STATIC_RESP!(Forbidden, StatusCode::FORBIDDEN);
STATIC_RESP!(MethodNotAllowed, StatusCode::METHOD_NOT_ALLOWED);
STATIC_RESP!(NotAcceptable, StatusCode::NOT_ACCEPTABLE);
STATIC_RESP!(
ProxyAuthenticationRequired,
StatusCode::PROXY_AUTHENTICATION_REQUIRED
);
STATIC_RESP!(RequestTimeout, StatusCode::REQUEST_TIMEOUT);
STATIC_RESP!(Conflict, StatusCode::CONFLICT);
STATIC_RESP!(Gone, StatusCode::GONE);
STATIC_RESP!(LengthRequired, StatusCode::LENGTH_REQUIRED);
STATIC_RESP!(PreconditionFailed, StatusCode::PRECONDITION_FAILED);
STATIC_RESP!(PreconditionRequired, StatusCode::PRECONDITION_REQUIRED);
STATIC_RESP!(PayloadTooLarge, StatusCode::PAYLOAD_TOO_LARGE);
STATIC_RESP!(UriTooLong, StatusCode::URI_TOO_LONG);
STATIC_RESP!(UnsupportedMediaType, StatusCode::UNSUPPORTED_MEDIA_TYPE);
STATIC_RESP!(RangeNotSatisfiable, StatusCode::RANGE_NOT_SATISFIABLE);
STATIC_RESP!(ExpectationFailed, StatusCode::EXPECTATION_FAILED);
STATIC_RESP!(InternalServerError, StatusCode::INTERNAL_SERVER_ERROR);
STATIC_RESP!(NotImplemented, StatusCode::NOT_IMPLEMENTED);
STATIC_RESP!(BadGateway, StatusCode::BAD_GATEWAY);
STATIC_RESP!(ServiceUnavailable, StatusCode::SERVICE_UNAVAILABLE);
STATIC_RESP!(GatewayTimeout, StatusCode::GATEWAY_TIMEOUT);
STATIC_RESP!(VersionNotSupported, StatusCode::HTTP_VERSION_NOT_SUPPORTED);
STATIC_RESP!(VariantAlsoNegotiates, StatusCode::VARIANT_ALSO_NEGOTIATES);
STATIC_RESP!(InsufficientStorage, StatusCode::INSUFFICIENT_STORAGE);
STATIC_RESP!(LoopDetected, StatusCode::LOOP_DETECTED);
}
#[cfg(test)]
mod tests {
use crate::body::Body;
use crate::response::Response;
use http::StatusCode;
#[test]
fn test_build() {
let resp = Response::Ok().body(Body::Empty);
assert_eq!(resp.status(), StatusCode::OK);
}
}

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use std::cell::{Ref, RefMut};
use std::str;
use encoding::all::UTF_8;
use encoding::label::encoding_from_whatwg_label;
use encoding::EncodingRef;
use http::{header, HeaderMap};
use mime::Mime;
use crate::error::{ContentTypeError, ParseError};
use crate::extensions::Extensions;
use crate::header::Header;
use crate::payload::Payload;
#[cfg(feature = "cookies")]
use crate::error::CookieParseError;
#[cfg(feature = "cookies")]
use cookie::Cookie;
#[cfg(feature = "cookies")]
struct Cookies(Vec<Cookie<'static>>);
/// Trait that implements general purpose operations on http messages
pub trait HttpMessage: Sized {
/// Type of message payload stream
type Stream;
/// Read the message headers.
fn headers(&self) -> &HeaderMap;
/// Message payload stream
fn take_payload(&mut self) -> Payload<Self::Stream>;
/// Request's extensions container
fn extensions(&self) -> Ref<Extensions>;
/// Mutable reference to a the request's extensions container
fn extensions_mut(&self) -> RefMut<Extensions>;
#[doc(hidden)]
/// Get a header
fn get_header<H: Header>(&self) -> Option<H>
where
Self: Sized,
{
if self.headers().contains_key(H::name()) {
H::parse(self).ok()
} else {
None
}
}
/// Read the request content type. If request does not contain
/// *Content-Type* header, empty str get returned.
fn content_type(&self) -> &str {
if let Some(content_type) = self.headers().get(header::CONTENT_TYPE) {
if let Ok(content_type) = content_type.to_str() {
return content_type.split(';').next().unwrap().trim();
}
}
""
}
/// Get content type encoding
///
/// UTF-8 is used by default, If request charset is not set.
fn encoding(&self) -> Result<EncodingRef, ContentTypeError> {
if let Some(mime_type) = self.mime_type()? {
if let Some(charset) = mime_type.get_param("charset") {
if let Some(enc) = encoding_from_whatwg_label(charset.as_str()) {
Ok(enc)
} else {
Err(ContentTypeError::UnknownEncoding)
}
} else {
Ok(UTF_8)
}
} else {
Ok(UTF_8)
}
}
/// Convert the request content type to a known mime type.
fn mime_type(&self) -> Result<Option<Mime>, ContentTypeError> {
if let Some(content_type) = self.headers().get(header::CONTENT_TYPE) {
if let Ok(content_type) = content_type.to_str() {
return match content_type.parse() {
Ok(mt) => Ok(Some(mt)),
Err(_) => Err(ContentTypeError::ParseError),
};
} else {
return Err(ContentTypeError::ParseError);
}
}
Ok(None)
}
/// Check if request has chunked transfer encoding
fn chunked(&self) -> Result<bool, ParseError> {
if let Some(encodings) = self.headers().get(header::TRANSFER_ENCODING) {
if let Ok(s) = encodings.to_str() {
Ok(s.to_lowercase().contains("chunked"))
} else {
Err(ParseError::Header)
}
} else {
Ok(false)
}
}
/// Load request cookies.
#[inline]
#[cfg(feature = "cookies")]
fn cookies(&self) -> Result<Ref<Vec<Cookie<'static>>>, CookieParseError> {
if self.extensions().get::<Cookies>().is_none() {
let mut cookies = Vec::new();
for hdr in self.headers().get_all(header::COOKIE) {
let s =
str::from_utf8(hdr.as_bytes()).map_err(CookieParseError::from)?;
for cookie_str in s.split(';').map(|s| s.trim()) {
if !cookie_str.is_empty() {
cookies.push(Cookie::parse_encoded(cookie_str)?.into_owned());
}
}
}
self.extensions_mut().insert(Cookies(cookies));
}
Ok(Ref::map(self.extensions(), |ext| {
&ext.get::<Cookies>().unwrap().0
}))
}
/// Return request cookie.
#[cfg(feature = "cookies")]
fn cookie(&self, name: &str) -> Option<Cookie<'static>> {
if let Ok(cookies) = self.cookies() {
for cookie in cookies.iter() {
if cookie.name() == name {
return Some(cookie.to_owned());
}
}
}
None
}
}
impl<'a, T> HttpMessage for &'a mut T
where
T: HttpMessage,
{
type Stream = T::Stream;
fn headers(&self) -> &HeaderMap {
(**self).headers()
}
/// Message payload stream
fn take_payload(&mut self) -> Payload<Self::Stream> {
(**self).take_payload()
}
/// Request's extensions container
fn extensions(&self) -> Ref<Extensions> {
(**self).extensions()
}
/// Mutable reference to a the request's extensions container
fn extensions_mut(&self) -> RefMut<Extensions> {
(**self).extensions_mut()
}
}
#[cfg(test)]
mod tests {
use bytes::Bytes;
use encoding::all::ISO_8859_2;
use encoding::Encoding;
use mime;
use super::*;
use crate::test::TestRequest;
#[test]
fn test_content_type() {
let req = TestRequest::with_header("content-type", "text/plain").finish();
assert_eq!(req.content_type(), "text/plain");
let req =
TestRequest::with_header("content-type", "application/json; charset=utf=8")
.finish();
assert_eq!(req.content_type(), "application/json");
let req = TestRequest::default().finish();
assert_eq!(req.content_type(), "");
}
#[test]
fn test_mime_type() {
let req = TestRequest::with_header("content-type", "application/json").finish();
assert_eq!(req.mime_type().unwrap(), Some(mime::APPLICATION_JSON));
let req = TestRequest::default().finish();
assert_eq!(req.mime_type().unwrap(), None);
let req =
TestRequest::with_header("content-type", "application/json; charset=utf-8")
.finish();
let mt = req.mime_type().unwrap().unwrap();
assert_eq!(mt.get_param(mime::CHARSET), Some(mime::UTF_8));
assert_eq!(mt.type_(), mime::APPLICATION);
assert_eq!(mt.subtype(), mime::JSON);
}
#[test]
fn test_mime_type_error() {
let req = TestRequest::with_header(
"content-type",
"applicationadfadsfasdflknadsfklnadsfjson",
)
.finish();
assert_eq!(Err(ContentTypeError::ParseError), req.mime_type());
}
#[test]
fn test_encoding() {
let req = TestRequest::default().finish();
assert_eq!(UTF_8.name(), req.encoding().unwrap().name());
let req = TestRequest::with_header("content-type", "application/json").finish();
assert_eq!(UTF_8.name(), req.encoding().unwrap().name());
let req = TestRequest::with_header(
"content-type",
"application/json; charset=ISO-8859-2",
)
.finish();
assert_eq!(ISO_8859_2.name(), req.encoding().unwrap().name());
}
#[test]
fn test_encoding_error() {
let req = TestRequest::with_header("content-type", "applicatjson").finish();
assert_eq!(Some(ContentTypeError::ParseError), req.encoding().err());
let req = TestRequest::with_header(
"content-type",
"application/json; charset=kkkttktk",
)
.finish();
assert_eq!(
Some(ContentTypeError::UnknownEncoding),
req.encoding().err()
);
}
#[test]
fn test_chunked() {
let req = TestRequest::default().finish();
assert!(!req.chunked().unwrap());
let req =
TestRequest::with_header(header::TRANSFER_ENCODING, "chunked").finish();
assert!(req.chunked().unwrap());
let req = TestRequest::default()
.header(
header::TRANSFER_ENCODING,
Bytes::from_static(b"some va\xadscc\xacas0xsdasdlue"),
)
.finish();
assert!(req.chunked().is_err());
}
}

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//! Basic http primitives for actix-net framework.
#![allow(
clippy::type_complexity,
clippy::new_without_default,
clippy::new_without_default_derive
)]
#[macro_use]
extern crate log;
pub mod body;
mod builder;
pub mod client;
mod config;
mod extensions;
mod header;
mod helpers;
mod httpcodes;
pub mod httpmessage;
mod message;
mod payload;
mod request;
mod response;
mod service;
pub mod error;
pub mod h1;
pub mod h2;
pub mod test;
pub mod ws;
pub use self::builder::HttpServiceBuilder;
pub use self::config::{KeepAlive, ServiceConfig};
pub use self::error::{Error, ResponseError, Result};
pub use self::extensions::Extensions;
pub use self::httpmessage::HttpMessage;
pub use self::message::{Head, Message, RequestHead, ResponseHead};
pub use self::payload::{Payload, PayloadStream};
pub use self::request::Request;
pub use self::response::{Response, ResponseBuilder};
pub use self::service::{HttpService, SendError, SendResponse};
pub mod http {
//! Various HTTP related types
// re-exports
pub use http::header::{HeaderName, HeaderValue};
pub use http::{Method, StatusCode, Version};
#[doc(hidden)]
pub use http::{uri, Error, HeaderMap, HttpTryFrom, Uri};
#[doc(hidden)]
pub use http::uri::PathAndQuery;
#[cfg(feature = "cookies")]
pub use cookie::{Cookie, CookieBuilder};
/// Various http headers
pub mod header {
pub use crate::header::*;
}
pub use crate::header::ContentEncoding;
pub use crate::message::ConnectionType;
}

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use std::cell::{Ref, RefCell, RefMut};
use std::collections::VecDeque;
use std::rc::Rc;
use crate::extensions::Extensions;
use crate::http::{header, HeaderMap, Method, StatusCode, Uri, Version};
/// Represents various types of connection
#[derive(Copy, Clone, PartialEq, Debug)]
pub enum ConnectionType {
/// Close connection after response
Close,
/// Keep connection alive after response
KeepAlive,
/// Connection is upgraded to different type
Upgrade,
}
#[doc(hidden)]
pub trait Head: Default + 'static {
fn clear(&mut self);
/// Read the message headers.
fn headers(&self) -> &HeaderMap;
/// Mutable reference to the message headers.
fn headers_mut(&mut self) -> &mut HeaderMap;
/// Connection type
fn connection_type(&self) -> ConnectionType;
/// Set connection type of the message
fn set_connection_type(&mut self, ctype: ConnectionType);
fn upgrade(&self) -> bool {
if let Some(hdr) = self.headers().get(header::CONNECTION) {
if let Ok(s) = hdr.to_str() {
s.to_ascii_lowercase().contains("upgrade")
} else {
false
}
} else {
false
}
}
/// Check if keep-alive is enabled
fn keep_alive(&self) -> bool {
self.connection_type() == ConnectionType::KeepAlive
}
fn pool() -> &'static MessagePool<Self>;
}
#[derive(Debug)]
pub struct RequestHead {
pub uri: Uri,
pub method: Method,
pub version: Version,
pub headers: HeaderMap,
pub ctype: Option<ConnectionType>,
pub no_chunking: bool,
pub extensions: RefCell<Extensions>,
}
impl Default for RequestHead {
fn default() -> RequestHead {
RequestHead {
uri: Uri::default(),
method: Method::default(),
version: Version::HTTP_11,
headers: HeaderMap::with_capacity(16),
ctype: None,
no_chunking: false,
extensions: RefCell::new(Extensions::new()),
}
}
}
impl Head for RequestHead {
fn clear(&mut self) {
self.ctype = None;
self.headers.clear();
self.extensions.borrow_mut().clear();
}
fn headers(&self) -> &HeaderMap {
&self.headers
}
fn headers_mut(&mut self) -> &mut HeaderMap {
&mut self.headers
}
fn set_connection_type(&mut self, ctype: ConnectionType) {
self.ctype = Some(ctype)
}
fn connection_type(&self) -> ConnectionType {
if let Some(ct) = self.ctype {
ct
} else if self.version < Version::HTTP_11 {
ConnectionType::Close
} else {
ConnectionType::KeepAlive
}
}
fn upgrade(&self) -> bool {
if let Some(hdr) = self.headers().get(header::CONNECTION) {
if let Ok(s) = hdr.to_str() {
s.to_ascii_lowercase().contains("upgrade")
} else {
false
}
} else {
false
}
}
fn pool() -> &'static MessagePool<Self> {
REQUEST_POOL.with(|p| *p)
}
}
impl RequestHead {
/// Message extensions
#[inline]
pub fn extensions(&self) -> Ref<Extensions> {
self.extensions.borrow()
}
/// Mutable reference to a the message's extensions
#[inline]
pub fn extensions_mut(&self) -> RefMut<Extensions> {
self.extensions.borrow_mut()
}
}
#[derive(Debug)]
pub struct ResponseHead {
pub version: Version,
pub status: StatusCode,
pub headers: HeaderMap,
pub reason: Option<&'static str>,
pub no_chunking: bool,
pub(crate) ctype: Option<ConnectionType>,
pub(crate) extensions: RefCell<Extensions>,
}
impl Default for ResponseHead {
fn default() -> ResponseHead {
ResponseHead {
version: Version::default(),
status: StatusCode::OK,
headers: HeaderMap::with_capacity(16),
reason: None,
no_chunking: false,
ctype: None,
extensions: RefCell::new(Extensions::new()),
}
}
}
impl ResponseHead {
/// Message extensions
#[inline]
pub fn extensions(&self) -> Ref<Extensions> {
self.extensions.borrow()
}
/// Mutable reference to a the message's extensions
#[inline]
pub fn extensions_mut(&self) -> RefMut<Extensions> {
self.extensions.borrow_mut()
}
}
impl Head for ResponseHead {
fn clear(&mut self) {
self.ctype = None;
self.reason = None;
self.no_chunking = false;
self.headers.clear();
}
fn headers(&self) -> &HeaderMap {
&self.headers
}
fn headers_mut(&mut self) -> &mut HeaderMap {
&mut self.headers
}
fn set_connection_type(&mut self, ctype: ConnectionType) {
self.ctype = Some(ctype)
}
fn connection_type(&self) -> ConnectionType {
if let Some(ct) = self.ctype {
ct
} else if self.version < Version::HTTP_11 {
ConnectionType::Close
} else {
ConnectionType::KeepAlive
}
}
fn upgrade(&self) -> bool {
self.connection_type() == ConnectionType::Upgrade
}
fn pool() -> &'static MessagePool<Self> {
RESPONSE_POOL.with(|p| *p)
}
}
impl ResponseHead {
/// Get custom reason for the response
#[inline]
pub fn reason(&self) -> &str {
if let Some(reason) = self.reason {
reason
} else {
self.status
.canonical_reason()
.unwrap_or("<unknown status code>")
}
}
}
pub struct Message<T: Head> {
head: Rc<T>,
pool: &'static MessagePool<T>,
}
impl<T: Head> Message<T> {
/// Get new message from the pool of objects
pub fn new() -> Self {
T::pool().get_message()
}
}
impl<T: Head> Clone for Message<T> {
fn clone(&self) -> Self {
Message {
head: self.head.clone(),
pool: self.pool,
}
}
}
impl<T: Head> std::ops::Deref for Message<T> {
type Target = T;
fn deref(&self) -> &Self::Target {
&self.head.as_ref()
}
}
impl<T: Head> std::ops::DerefMut for Message<T> {
fn deref_mut(&mut self) -> &mut Self::Target {
Rc::get_mut(&mut self.head).expect("Multiple copies exist")
}
}
impl<T: Head> Drop for Message<T> {
fn drop(&mut self) {
if Rc::strong_count(&self.head) == 1 {
self.pool.release(self.head.clone());
}
}
}
#[doc(hidden)]
/// Request's objects pool
pub struct MessagePool<T: Head>(RefCell<VecDeque<Rc<T>>>);
thread_local!(static REQUEST_POOL: &'static MessagePool<RequestHead> = MessagePool::<RequestHead>::create());
thread_local!(static RESPONSE_POOL: &'static MessagePool<ResponseHead> = MessagePool::<ResponseHead>::create());
impl<T: Head> MessagePool<T> {
fn create() -> &'static MessagePool<T> {
let pool = MessagePool(RefCell::new(VecDeque::with_capacity(128)));
Box::leak(Box::new(pool))
}
/// Get message from the pool
#[inline]
fn get_message(&'static self) -> Message<T> {
if let Some(mut msg) = self.0.borrow_mut().pop_front() {
if let Some(r) = Rc::get_mut(&mut msg) {
r.clear();
}
Message {
head: msg,
pool: self,
}
} else {
Message {
head: Rc::new(T::default()),
pool: self,
}
}
}
#[inline]
/// Release request instance
fn release(&self, msg: Rc<T>) {
let v = &mut self.0.borrow_mut();
if v.len() < 128 {
v.push_front(msg);
}
}
}

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use bytes::Bytes;
use futures::{Async, Poll, Stream};
use h2::RecvStream;
use crate::error::PayloadError;
/// Type represent boxed payload
pub type PayloadStream = Box<dyn Stream<Item = Bytes, Error = PayloadError>>;
/// Type represent streaming payload
pub enum Payload<S = PayloadStream> {
None,
H1(crate::h1::Payload),
H2(crate::h2::Payload),
Stream(S),
}
impl<S> From<crate::h1::Payload> for Payload<S> {
fn from(v: crate::h1::Payload) -> Self {
Payload::H1(v)
}
}
impl<S> From<crate::h2::Payload> for Payload<S> {
fn from(v: crate::h2::Payload) -> Self {
Payload::H2(v)
}
}
impl<S> From<RecvStream> for Payload<S> {
fn from(v: RecvStream) -> Self {
Payload::H2(crate::h2::Payload::new(v))
}
}
impl From<PayloadStream> for Payload {
fn from(pl: PayloadStream) -> Self {
Payload::Stream(pl)
}
}
impl<S> Payload<S> {
/// Takes current payload and replaces it with `None` value
pub fn take(&mut self) -> Payload<S> {
std::mem::replace(self, Payload::None)
}
}
impl<S> Stream for Payload<S>
where
S: Stream<Item = Bytes, Error = PayloadError>,
{
type Item = Bytes;
type Error = PayloadError;
fn poll(&mut self) -> Poll<Option<Self::Item>, Self::Error> {
match self {
Payload::None => Ok(Async::Ready(None)),
Payload::H1(ref mut pl) => pl.poll(),
Payload::H2(ref mut pl) => pl.poll(),
Payload::Stream(ref mut pl) => pl.poll(),
}
}
}

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use std::cell::{Ref, RefMut};
use std::fmt;
use http::{header, HeaderMap, Method, Uri, Version};
use crate::extensions::Extensions;
use crate::httpmessage::HttpMessage;
use crate::message::{Message, RequestHead};
use crate::payload::{Payload, PayloadStream};
/// Request
pub struct Request<P = PayloadStream> {
pub(crate) payload: Payload<P>,
pub(crate) head: Message<RequestHead>,
}
impl<P> HttpMessage for Request<P> {
type Stream = P;
#[inline]
fn headers(&self) -> &HeaderMap {
&self.head().headers
}
/// Request extensions
#[inline]
fn extensions(&self) -> Ref<Extensions> {
self.head.extensions()
}
/// Mutable reference to a the request's extensions
#[inline]
fn extensions_mut(&self) -> RefMut<Extensions> {
self.head.extensions_mut()
}
fn take_payload(&mut self) -> Payload<P> {
std::mem::replace(&mut self.payload, Payload::None)
}
}
impl From<Message<RequestHead>> for Request<PayloadStream> {
fn from(head: Message<RequestHead>) -> Self {
Request {
head,
payload: Payload::None,
}
}
}
impl Request<PayloadStream> {
/// Create new Request instance
pub fn new() -> Request<PayloadStream> {
Request {
head: Message::new(),
payload: Payload::None,
}
}
}
impl<P> Request<P> {
/// Create new Request instance
pub fn with_payload(payload: Payload<P>) -> Request<P> {
Request {
payload,
head: Message::new(),
}
}
/// Create new Request instance
pub fn replace_payload<P1>(self, payload: Payload<P1>) -> (Request<P1>, Payload<P>) {
let pl = self.payload;
(
Request {
payload,
head: self.head,
},
pl,
)
}
/// Get request's payload
pub fn take_payload(&mut self) -> Payload<P> {
std::mem::replace(&mut self.payload, Payload::None)
}
/// Split request into request head and payload
pub fn into_parts(self) -> (Message<RequestHead>, Payload<P>) {
(self.head, self.payload)
}
#[inline]
/// Http message part of the request
pub fn head(&self) -> &RequestHead {
&*self.head
}
#[inline]
#[doc(hidden)]
/// Mutable reference to a http message part of the request
pub fn head_mut(&mut self) -> &mut RequestHead {
&mut *self.head
}
/// Mutable reference to the message's headers.
pub fn headers_mut(&mut self) -> &mut HeaderMap {
&mut self.head_mut().headers
}
/// Request's uri.
#[inline]
pub fn uri(&self) -> &Uri {
&self.head().uri
}
/// Mutable reference to the request's uri.
#[inline]
pub fn uri_mut(&mut self) -> &mut Uri {
&mut self.head_mut().uri
}
/// Read the Request method.
#[inline]
pub fn method(&self) -> &Method {
&self.head().method
}
/// Read the Request Version.
#[inline]
pub fn version(&self) -> Version {
self.head().version
}
/// The target path of this Request.
#[inline]
pub fn path(&self) -> &str {
self.head().uri.path()
}
/// Check if request requires connection upgrade
pub fn upgrade(&self) -> bool {
if let Some(conn) = self.head().headers.get(header::CONNECTION) {
if let Ok(s) = conn.to_str() {
return s.to_lowercase().contains("upgrade");
}
}
self.head().method == Method::CONNECT
}
}
impl<P> fmt::Debug for Request<P> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
writeln!(
f,
"\nRequest {:?} {}:{}",
self.version(),
self.method(),
self.path()
)?;
if let Some(q) = self.uri().query().as_ref() {
writeln!(f, " query: ?{:?}", q)?;
}
writeln!(f, " headers:")?;
for (key, val) in self.headers().iter() {
writeln!(f, " {:?}: {:?}", key, val)?;
}
Ok(())
}
}

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mod senderror;
mod service;
pub use self::senderror::{SendError, SendResponse};
pub use self::service::HttpService;

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use std::marker::PhantomData;
use actix_codec::{AsyncRead, AsyncWrite, Framed};
use actix_service::{NewService, Service};
use futures::future::{ok, Either, FutureResult};
use futures::{Async, Future, Poll, Sink};
use crate::body::{BodyLength, MessageBody, ResponseBody};
use crate::error::{Error, ResponseError};
use crate::h1::{Codec, Message};
use crate::response::Response;
pub struct SendError<T, R, E>(PhantomData<(T, R, E)>);
impl<T, R, E> Default for SendError<T, R, E>
where
T: AsyncRead + AsyncWrite,
E: ResponseError,
{
fn default() -> Self {
SendError(PhantomData)
}
}
impl<T, R, E> NewService for SendError<T, R, E>
where
T: AsyncRead + AsyncWrite,
E: ResponseError,
{
type Request = Result<R, (E, Framed<T, Codec>)>;
type Response = R;
type Error = (E, Framed<T, Codec>);
type InitError = ();
type Service = SendError<T, R, E>;
type Future = FutureResult<Self::Service, Self::InitError>;
fn new_service(&self, _: &()) -> Self::Future {
ok(SendError(PhantomData))
}
}
impl<T, R, E> Service for SendError<T, R, E>
where
T: AsyncRead + AsyncWrite,
E: ResponseError,
{
type Request = Result<R, (E, Framed<T, Codec>)>;
type Response = R;
type Error = (E, Framed<T, Codec>);
type Future = Either<FutureResult<R, (E, Framed<T, Codec>)>, SendErrorFut<T, R, E>>;
fn poll_ready(&mut self) -> Poll<(), Self::Error> {
Ok(Async::Ready(()))
}
fn call(&mut self, req: Result<R, (E, Framed<T, Codec>)>) -> Self::Future {
match req {
Ok(r) => Either::A(ok(r)),
Err((e, framed)) => {
let res = e.error_response().set_body(format!("{}", e));
let (res, _body) = res.replace_body(());
Either::B(SendErrorFut {
framed: Some(framed),
res: Some((res, BodyLength::Empty).into()),
err: Some(e),
_t: PhantomData,
})
}
}
}
}
pub struct SendErrorFut<T, R, E> {
res: Option<Message<(Response<()>, BodyLength)>>,
framed: Option<Framed<T, Codec>>,
err: Option<E>,
_t: PhantomData<R>,
}
impl<T, R, E> Future for SendErrorFut<T, R, E>
where
E: ResponseError,
T: AsyncRead + AsyncWrite,
{
type Item = R;
type Error = (E, Framed<T, Codec>);
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
if let Some(res) = self.res.take() {
if self.framed.as_mut().unwrap().force_send(res).is_err() {
return Err((self.err.take().unwrap(), self.framed.take().unwrap()));
}
}
match self.framed.as_mut().unwrap().poll_complete() {
Ok(Async::Ready(_)) => {
Err((self.err.take().unwrap(), self.framed.take().unwrap()))
}
Ok(Async::NotReady) => Ok(Async::NotReady),
Err(_) => Err((self.err.take().unwrap(), self.framed.take().unwrap())),
}
}
}
pub struct SendResponse<T, B>(PhantomData<(T, B)>);
impl<T, B> Default for SendResponse<T, B> {
fn default() -> Self {
SendResponse(PhantomData)
}
}
impl<T, B> SendResponse<T, B>
where
T: AsyncRead + AsyncWrite,
B: MessageBody,
{
pub fn send(
framed: Framed<T, Codec>,
res: Response<B>,
) -> impl Future<Item = Framed<T, Codec>, Error = Error> {
// extract body from response
let (res, body) = res.replace_body(());
// write response
SendResponseFut {
res: Some(Message::Item((res, body.length()))),
body: Some(body),
framed: Some(framed),
}
}
}
impl<T, B> NewService for SendResponse<T, B>
where
T: AsyncRead + AsyncWrite,
B: MessageBody,
{
type Request = (Response<B>, Framed<T, Codec>);
type Response = Framed<T, Codec>;
type Error = Error;
type InitError = ();
type Service = SendResponse<T, B>;
type Future = FutureResult<Self::Service, Self::InitError>;
fn new_service(&self, _: &()) -> Self::Future {
ok(SendResponse(PhantomData))
}
}
impl<T, B> Service for SendResponse<T, B>
where
T: AsyncRead + AsyncWrite,
B: MessageBody,
{
type Request = (Response<B>, Framed<T, Codec>);
type Response = Framed<T, Codec>;
type Error = Error;
type Future = SendResponseFut<T, B>;
fn poll_ready(&mut self) -> Poll<(), Self::Error> {
Ok(Async::Ready(()))
}
fn call(&mut self, (res, framed): (Response<B>, Framed<T, Codec>)) -> Self::Future {
let (res, body) = res.replace_body(());
SendResponseFut {
res: Some(Message::Item((res, body.length()))),
body: Some(body),
framed: Some(framed),
}
}
}
pub struct SendResponseFut<T, B> {
res: Option<Message<(Response<()>, BodyLength)>>,
body: Option<ResponseBody<B>>,
framed: Option<Framed<T, Codec>>,
}
impl<T, B> Future for SendResponseFut<T, B>
where
T: AsyncRead + AsyncWrite,
B: MessageBody,
{
type Item = Framed<T, Codec>;
type Error = Error;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
loop {
let mut body_ready = self.body.is_some();
let framed = self.framed.as_mut().unwrap();
// send body
if self.res.is_none() && self.body.is_some() {
while body_ready && self.body.is_some() && !framed.is_write_buf_full() {
match self.body.as_mut().unwrap().poll_next()? {
Async::Ready(item) => {
// body is done
if item.is_none() {
let _ = self.body.take();
}
framed.force_send(Message::Chunk(item))?;
}
Async::NotReady => body_ready = false,
}
}
}
// flush write buffer
if !framed.is_write_buf_empty() {
match framed.poll_complete()? {
Async::Ready(_) => {
if body_ready {
continue;
} else {
return Ok(Async::NotReady);
}
}
Async::NotReady => return Ok(Async::NotReady),
}
}
// send response
if let Some(res) = self.res.take() {
framed.force_send(res)?;
continue;
}
if self.body.is_some() {
if body_ready {
continue;
} else {
return Ok(Async::NotReady);
}
} else {
break;
}
}
Ok(Async::Ready(self.framed.take().unwrap()))
}
}

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use std::fmt::Debug;
use std::marker::PhantomData;
use std::{fmt, io};
use actix_codec::{AsyncRead, AsyncWrite, Framed, FramedParts};
use actix_server_config::{Io as ServerIo, Protocol, ServerConfig as SrvConfig};
use actix_service::{IntoNewService, NewService, Service};
use actix_utils::cloneable::CloneableService;
use bytes::{Buf, BufMut, Bytes, BytesMut};
use futures::{try_ready, Async, Future, IntoFuture, Poll};
use h2::server::{self, Handshake};
use log::error;
use crate::body::MessageBody;
use crate::builder::HttpServiceBuilder;
use crate::config::{KeepAlive, ServiceConfig};
use crate::error::DispatchError;
use crate::request::Request;
use crate::response::Response;
use crate::{h1, h2::Dispatcher};
/// `NewService` HTTP1.1/HTTP2 transport implementation
pub struct HttpService<T, P, S, B> {
srv: S,
cfg: ServiceConfig,
_t: PhantomData<(T, P, B)>,
}
impl<T, S, B> HttpService<T, (), S, B>
where
S: NewService<SrvConfig, Request = Request>,
S::Service: 'static,
S::Error: Debug + 'static,
S::Response: Into<Response<B>>,
B: MessageBody + 'static,
{
/// Create builder for `HttpService` instance.
pub fn build() -> HttpServiceBuilder<T, S> {
HttpServiceBuilder::new()
}
}
impl<T, P, S, B> HttpService<T, P, S, B>
where
S: NewService<SrvConfig, Request = Request>,
S::Service: 'static,
S::Error: Debug + 'static,
S::Response: Into<Response<B>>,
B: MessageBody + 'static,
{
/// Create new `HttpService` instance.
pub fn new<F: IntoNewService<S, SrvConfig>>(service: F) -> Self {
let cfg = ServiceConfig::new(KeepAlive::Timeout(5), 5000, 0);
HttpService {
cfg,
srv: service.into_new_service(),
_t: PhantomData,
}
}
/// Create new `HttpService` instance with config.
pub(crate) fn with_config<F: IntoNewService<S, SrvConfig>>(
cfg: ServiceConfig,
service: F,
) -> Self {
HttpService {
cfg,
srv: service.into_new_service(),
_t: PhantomData,
}
}
}
impl<T, P, S, B> NewService<SrvConfig> for HttpService<T, P, S, B>
where
T: AsyncRead + AsyncWrite + 'static,
S: NewService<SrvConfig, Request = Request>,
S::Service: 'static,
S::Error: Debug,
S::Response: Into<Response<B>>,
B: MessageBody + 'static,
{
type Request = ServerIo<T, P>;
type Response = ();
type Error = DispatchError;
type InitError = S::InitError;
type Service = HttpServiceHandler<T, P, S::Service, B>;
type Future = HttpServiceResponse<T, P, S, B>;
fn new_service(&self, cfg: &SrvConfig) -> Self::Future {
HttpServiceResponse {
fut: self.srv.new_service(cfg).into_future(),
cfg: Some(self.cfg.clone()),
_t: PhantomData,
}
}
}
#[doc(hidden)]
pub struct HttpServiceResponse<T, P, S: NewService<SrvConfig>, B> {
fut: <S::Future as IntoFuture>::Future,
cfg: Option<ServiceConfig>,
_t: PhantomData<(T, P, B)>,
}
impl<T, P, S, B> Future for HttpServiceResponse<T, P, S, B>
where
T: AsyncRead + AsyncWrite,
S: NewService<SrvConfig, Request = Request>,
S::Service: 'static,
S::Response: Into<Response<B>>,
S::Error: Debug,
B: MessageBody + 'static,
{
type Item = HttpServiceHandler<T, P, S::Service, B>;
type Error = S::InitError;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
let service = try_ready!(self.fut.poll());
Ok(Async::Ready(HttpServiceHandler::new(
self.cfg.take().unwrap(),
service,
)))
}
}
/// `Service` implementation for http transport
pub struct HttpServiceHandler<T, P, S: 'static, B> {
srv: CloneableService<S>,
cfg: ServiceConfig,
_t: PhantomData<(T, P, B)>,
}
impl<T, P, S, B> HttpServiceHandler<T, P, S, B>
where
S: Service<Request = Request> + 'static,
S::Error: Debug,
S::Response: Into<Response<B>>,
B: MessageBody + 'static,
{
fn new(cfg: ServiceConfig, srv: S) -> HttpServiceHandler<T, P, S, B> {
HttpServiceHandler {
cfg,
srv: CloneableService::new(srv),
_t: PhantomData,
}
}
}
impl<T, P, S, B> Service for HttpServiceHandler<T, P, S, B>
where
T: AsyncRead + AsyncWrite + 'static,
S: Service<Request = Request> + 'static,
S::Error: Debug,
S::Response: Into<Response<B>>,
B: MessageBody + 'static,
{
type Request = ServerIo<T, P>;
type Response = ();
type Error = DispatchError;
type Future = HttpServiceHandlerResponse<T, S, B>;
fn poll_ready(&mut self) -> Poll<(), Self::Error> {
self.srv.poll_ready().map_err(|e| {
error!("Service readiness error: {:?}", e);
DispatchError::Service
})
}
fn call(&mut self, req: Self::Request) -> Self::Future {
let (io, _, proto) = req.into_parts();
match proto {
Protocol::Http2 => {
let io = Io {
inner: io,
unread: None,
};
HttpServiceHandlerResponse {
state: State::Handshake(Some((
server::handshake(io),
self.cfg.clone(),
self.srv.clone(),
))),
}
}
Protocol::Http10 | Protocol::Http11 => HttpServiceHandlerResponse {
state: State::H1(h1::Dispatcher::new(
io,
self.cfg.clone(),
self.srv.clone(),
)),
},
_ => HttpServiceHandlerResponse {
state: State::Unknown(Some((
io,
BytesMut::with_capacity(14),
self.cfg.clone(),
self.srv.clone(),
))),
},
}
}
}
enum State<T, S: Service<Request = Request> + 'static, B: MessageBody>
where
S::Error: fmt::Debug,
T: AsyncRead + AsyncWrite + 'static,
{
H1(h1::Dispatcher<T, S, B>),
H2(Dispatcher<Io<T>, S, B>),
Unknown(Option<(T, BytesMut, ServiceConfig, CloneableService<S>)>),
Handshake(Option<(Handshake<Io<T>, Bytes>, ServiceConfig, CloneableService<S>)>),
}
pub struct HttpServiceHandlerResponse<T, S, B>
where
T: AsyncRead + AsyncWrite + 'static,
S: Service<Request = Request> + 'static,
S::Error: Debug,
S::Response: Into<Response<B>>,
B: MessageBody + 'static,
{
state: State<T, S, B>,
}
const HTTP2_PREFACE: [u8; 14] = *b"PRI * HTTP/2.0";
impl<T, S, B> Future for HttpServiceHandlerResponse<T, S, B>
where
T: AsyncRead + AsyncWrite,
S: Service<Request = Request> + 'static,
S::Error: Debug,
S::Response: Into<Response<B>>,
B: MessageBody,
{
type Item = ();
type Error = DispatchError;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
match self.state {
State::H1(ref mut disp) => disp.poll(),
State::H2(ref mut disp) => disp.poll(),
State::Unknown(ref mut data) => {
if let Some(ref mut item) = data {
loop {
unsafe {
let b = item.1.bytes_mut();
let n = { try_ready!(item.0.poll_read(b)) };
item.1.advance_mut(n);
if item.1.len() >= HTTP2_PREFACE.len() {
break;
}
}
}
} else {
panic!()
}
let (io, buf, cfg, srv) = data.take().unwrap();
if buf[..14] == HTTP2_PREFACE[..] {
let io = Io {
inner: io,
unread: Some(buf),
};
self.state =
State::Handshake(Some((server::handshake(io), cfg, srv)));
} else {
let framed = Framed::from_parts(FramedParts::with_read_buf(
io,
h1::Codec::new(cfg.clone()),
buf,
));
self.state =
State::H1(h1::Dispatcher::with_timeout(framed, cfg, None, srv))
}
self.poll()
}
State::Handshake(ref mut data) => {
let conn = if let Some(ref mut item) = data {
match item.0.poll() {
Ok(Async::Ready(conn)) => conn,
Ok(Async::NotReady) => return Ok(Async::NotReady),
Err(err) => {
trace!("H2 handshake error: {}", err);
return Err(err.into());
}
}
} else {
panic!()
};
let (_, cfg, srv) = data.take().unwrap();
self.state = State::H2(Dispatcher::new(srv, conn, cfg, None));
self.poll()
}
}
}
}
/// Wrapper for `AsyncRead + AsyncWrite` types
struct Io<T> {
unread: Option<BytesMut>,
inner: T,
}
impl<T: io::Read> io::Read for Io<T> {
fn read(&mut self, buf: &mut [u8]) -> io::Result<usize> {
if let Some(mut bytes) = self.unread.take() {
let size = std::cmp::min(buf.len(), bytes.len());
buf[..size].copy_from_slice(&bytes[..size]);
if bytes.len() > size {
bytes.split_to(size);
self.unread = Some(bytes);
}
Ok(size)
} else {
self.inner.read(buf)
}
}
}
impl<T: io::Write> io::Write for Io<T> {
fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
self.inner.write(buf)
}
fn flush(&mut self) -> io::Result<()> {
self.inner.flush()
}
}
impl<T: AsyncRead + 'static> AsyncRead for Io<T> {
unsafe fn prepare_uninitialized_buffer(&self, buf: &mut [u8]) -> bool {
self.inner.prepare_uninitialized_buffer(buf)
}
}
impl<T: AsyncWrite + 'static> AsyncWrite for Io<T> {
fn shutdown(&mut self) -> Poll<(), io::Error> {
self.inner.shutdown()
}
fn write_buf<B: Buf>(&mut self, buf: &mut B) -> Poll<usize, io::Error> {
self.inner.write_buf(buf)
}
}

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//! Test Various helpers for Actix applications to use during testing.
use std::str::FromStr;
use bytes::Bytes;
#[cfg(feature = "cookies")]
use cookie::{Cookie, CookieJar};
use http::header::HeaderName;
use http::{HeaderMap, HttpTryFrom, Method, Uri, Version};
use crate::header::{Header, IntoHeaderValue};
use crate::payload::Payload;
use crate::Request;
/// Test `Request` builder
///
/// ```rust,ignore
/// # extern crate http;
/// # extern crate actix_web;
/// # use http::{header, StatusCode};
/// # use actix_web::*;
/// use actix_web::test::TestRequest;
///
/// fn index(req: &HttpRequest) -> Response {
/// if let Some(hdr) = req.headers().get(header::CONTENT_TYPE) {
/// Response::Ok().into()
/// } else {
/// Response::BadRequest().into()
/// }
/// }
///
/// fn main() {
/// let resp = TestRequest::with_header("content-type", "text/plain")
/// .run(&index)
/// .unwrap();
/// assert_eq!(resp.status(), StatusCode::OK);
///
/// let resp = TestRequest::default().run(&index).unwrap();
/// assert_eq!(resp.status(), StatusCode::BAD_REQUEST);
/// }
/// ```
pub struct TestRequest(Option<Inner>);
struct Inner {
version: Version,
method: Method,
uri: Uri,
headers: HeaderMap,
#[cfg(feature = "cookies")]
cookies: CookieJar,
payload: Option<Payload>,
}
impl Default for TestRequest {
fn default() -> TestRequest {
TestRequest(Some(Inner {
method: Method::GET,
uri: Uri::from_str("/").unwrap(),
version: Version::HTTP_11,
headers: HeaderMap::new(),
#[cfg(feature = "cookies")]
cookies: CookieJar::new(),
payload: None,
}))
}
}
impl TestRequest {
/// Create TestRequest and set request uri
pub fn with_uri(path: &str) -> TestRequest {
TestRequest::default().uri(path).take()
}
/// Create TestRequest and set header
pub fn with_hdr<H: Header>(hdr: H) -> TestRequest {
TestRequest::default().set(hdr).take()
}
/// Create TestRequest and set header
pub fn with_header<K, V>(key: K, value: V) -> TestRequest
where
HeaderName: HttpTryFrom<K>,
V: IntoHeaderValue,
{
TestRequest::default().header(key, value).take()
}
/// Set HTTP version of this request
pub fn version(&mut self, ver: Version) -> &mut Self {
parts(&mut self.0).version = ver;
self
}
/// Set HTTP method of this request
pub fn method(&mut self, meth: Method) -> &mut Self {
parts(&mut self.0).method = meth;
self
}
/// Set HTTP Uri of this request
pub fn uri(&mut self, path: &str) -> &mut Self {
parts(&mut self.0).uri = Uri::from_str(path).unwrap();
self
}
/// Set a header
pub fn set<H: Header>(&mut self, hdr: H) -> &mut Self {
if let Ok(value) = hdr.try_into() {
parts(&mut self.0).headers.append(H::name(), value);
return self;
}
panic!("Can not set header");
}
/// Set a header
pub fn header<K, V>(&mut self, key: K, value: V) -> &mut Self
where
HeaderName: HttpTryFrom<K>,
V: IntoHeaderValue,
{
if let Ok(key) = HeaderName::try_from(key) {
if let Ok(value) = value.try_into() {
parts(&mut self.0).headers.append(key, value);
return self;
}
}
panic!("Can not create header");
}
/// Set cookie for this request
#[cfg(feature = "cookies")]
pub fn cookie<'a>(&mut self, cookie: Cookie<'a>) -> &mut Self {
parts(&mut self.0).cookies.add(cookie.into_owned());
self
}
/// Set request payload
pub fn set_payload<B: Into<Bytes>>(&mut self, data: B) -> &mut Self {
let mut payload = crate::h1::Payload::empty();
payload.unread_data(data.into());
parts(&mut self.0).payload = Some(payload.into());
self
}
pub fn take(&mut self) -> TestRequest {
TestRequest(self.0.take())
}
/// Complete request creation and generate `Request` instance
pub fn finish(&mut self) -> Request {
let inner = self.0.take().expect("cannot reuse test request builder");;
let mut req = if let Some(pl) = inner.payload {
Request::with_payload(pl)
} else {
Request::with_payload(crate::h1::Payload::empty().into())
};
let head = req.head_mut();
head.uri = inner.uri;
head.method = inner.method;
head.version = inner.version;
head.headers = inner.headers;
#[cfg(feature = "cookies")]
{
use std::fmt::Write as FmtWrite;
use http::header::{self, HeaderValue};
use percent_encoding::{percent_encode, USERINFO_ENCODE_SET};
let mut cookie = String::new();
for c in inner.cookies.delta() {
let name = percent_encode(c.name().as_bytes(), USERINFO_ENCODE_SET);
let value = percent_encode(c.value().as_bytes(), USERINFO_ENCODE_SET);
let _ = write!(&mut cookie, "; {}={}", name, value);
}
if !cookie.is_empty() {
head.headers.insert(
header::COOKIE,
HeaderValue::from_str(&cookie.as_str()[2..]).unwrap(),
);
}
}
req
}
}
#[inline]
fn parts<'a>(parts: &'a mut Option<Inner>) -> &'a mut Inner {
parts.as_mut().expect("cannot reuse test request builder")
}

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//! Http client request
use std::str;
#[cfg(feature = "cookies")]
use cookie::Cookie;
use http::header::{HeaderName, HeaderValue};
use http::{Error as HttpError, HttpTryFrom, Uri};
use super::ClientError;
use crate::header::IntoHeaderValue;
use crate::message::RequestHead;
/// `WebSocket` connection
pub struct Connect {
pub(super) head: RequestHead,
pub(super) err: Option<ClientError>,
pub(super) http_err: Option<HttpError>,
pub(super) origin: Option<HeaderValue>,
pub(super) protocols: Option<String>,
pub(super) max_size: usize,
pub(super) server_mode: bool,
}
impl Connect {
/// Create new websocket connection
pub fn new<S: AsRef<str>>(uri: S) -> Connect {
let mut cl = Connect {
head: RequestHead::default(),
err: None,
http_err: None,
origin: None,
protocols: None,
max_size: 65_536,
server_mode: false,
};
match Uri::try_from(uri.as_ref()) {
Ok(uri) => cl.head.uri = uri,
Err(e) => cl.http_err = Some(e.into()),
}
cl
}
/// Set supported websocket protocols
pub fn protocols<U, V>(mut self, protos: U) -> Self
where
U: IntoIterator<Item = V> + 'static,
V: AsRef<str>,
{
let mut protos = protos
.into_iter()
.fold(String::new(), |acc, s| acc + s.as_ref() + ",");
protos.pop();
self.protocols = Some(protos);
self
}
// #[cfg(feature = "cookies")]
// /// Set cookie for handshake request
// pub fn cookie(mut self, cookie: Cookie) -> Self {
// self.request.cookie(cookie);
// self
// }
/// Set request Origin
pub fn origin<V>(mut self, origin: V) -> Self
where
HeaderValue: HttpTryFrom<V>,
{
match HeaderValue::try_from(origin) {
Ok(value) => self.origin = Some(value),
Err(e) => self.http_err = Some(e.into()),
}
self
}
/// Set max frame size
///
/// By default max size is set to 64kb
pub fn max_frame_size(mut self, size: usize) -> Self {
self.max_size = size;
self
}
/// Disable payload masking. By default ws client masks frame payload.
pub fn server_mode(mut self) -> Self {
self.server_mode = true;
self
}
/// Set request header
pub fn header<K, V>(mut self, key: K, value: V) -> Self
where
HeaderName: HttpTryFrom<K>,
V: IntoHeaderValue,
{
match HeaderName::try_from(key) {
Ok(key) => match value.try_into() {
Ok(value) => {
self.head.headers.append(key, value);
}
Err(e) => self.http_err = Some(e.into()),
},
Err(e) => self.http_err = Some(e.into()),
}
self
}
}

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//! Http client request
use std::io;
use actix_connect::ConnectError;
use derive_more::{Display, From};
use http::{header::HeaderValue, Error as HttpError, StatusCode};
use crate::error::ParseError;
use crate::ws::ProtocolError;
/// Websocket client error
#[derive(Debug, Display, From)]
pub enum ClientError {
/// Invalid url
#[display(fmt = "Invalid url")]
InvalidUrl,
/// Invalid response status
#[display(fmt = "Invalid response status")]
InvalidResponseStatus(StatusCode),
/// Invalid upgrade header
#[display(fmt = "Invalid upgrade header")]
InvalidUpgradeHeader,
/// Invalid connection header
#[display(fmt = "Invalid connection header")]
InvalidConnectionHeader(HeaderValue),
/// Missing CONNECTION header
#[display(fmt = "Missing CONNECTION header")]
MissingConnectionHeader,
/// Missing SEC-WEBSOCKET-ACCEPT header
#[display(fmt = "Missing SEC-WEBSOCKET-ACCEPT header")]
MissingWebSocketAcceptHeader,
/// Invalid challenge response
#[display(fmt = "Invalid challenge response")]
InvalidChallengeResponse(String, HeaderValue),
/// Http parsing error
#[display(fmt = "Http parsing error")]
Http(HttpError),
/// Response parsing error
#[display(fmt = "Response parsing error: {}", _0)]
ParseError(ParseError),
/// Protocol error
#[display(fmt = "{}", _0)]
Protocol(ProtocolError),
/// Connect error
#[display(fmt = "Connector error: {:?}", _0)]
Connect(ConnectError),
/// IO Error
#[display(fmt = "{}", _0)]
Io(io::Error),
/// "Disconnected"
#[display(fmt = "Disconnected")]
Disconnected,
}

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mod connect;
mod error;
mod service;
pub use self::connect::Connect;
pub use self::error::ClientError;
pub use self::service::Client;
#[derive(PartialEq, Hash, Debug, Clone, Copy)]
pub(crate) enum Protocol {
Http,
Https,
Ws,
Wss,
}
impl Protocol {
fn from(s: &str) -> Option<Protocol> {
match s {
"http" => Some(Protocol::Http),
"https" => Some(Protocol::Https),
"ws" => Some(Protocol::Ws),
"wss" => Some(Protocol::Wss),
_ => None,
}
}
// fn is_http(self) -> bool {
// match self {
// Protocol::Https | Protocol::Http => true,
// _ => false,
// }
// }
// fn is_secure(self) -> bool {
// match self {
// Protocol::Https | Protocol::Wss => true,
// _ => false,
// }
// }
fn port(self) -> u16 {
match self {
Protocol::Http | Protocol::Ws => 80,
Protocol::Https | Protocol::Wss => 443,
}
}
}

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//! websockets client
use std::marker::PhantomData;
use actix_codec::{AsyncRead, AsyncWrite, Framed};
use actix_connect::{default_connector, Connect as TcpConnect, ConnectError};
use actix_service::{apply_fn, Service};
use base64;
use futures::future::{err, Either, FutureResult};
use futures::{try_ready, Async, Future, Poll, Sink, Stream};
use http::header::{self, HeaderValue};
use http::{HttpTryFrom, StatusCode};
use log::trace;
use rand;
use sha1::Sha1;
use crate::body::BodyLength;
use crate::h1;
use crate::message::{ConnectionType, Head, ResponseHead};
use crate::ws::Codec;
use super::{ClientError, Connect, Protocol};
/// WebSocket's client
pub struct Client<T> {
connector: T,
}
impl Client<()> {
/// Create client with default connector.
pub fn default() -> Client<
impl Service<
Request = TcpConnect<String>,
Response = impl AsyncRead + AsyncWrite,
Error = ConnectError,
> + Clone,
> {
Client::new(apply_fn(default_connector(), |msg: TcpConnect<_>, srv| {
srv.call(msg).map(|stream| stream.into_parts().0)
}))
}
}
impl<T> Client<T>
where
T: Service<Request = TcpConnect<String>, Error = ConnectError>,
T::Response: AsyncRead + AsyncWrite,
{
/// Create new websocket's client factory
pub fn new(connector: T) -> Self {
Client { connector }
}
}
impl<T> Clone for Client<T>
where
T: Service<Request = TcpConnect<String>, Error = ConnectError> + Clone,
T::Response: AsyncRead + AsyncWrite,
{
fn clone(&self) -> Self {
Client {
connector: self.connector.clone(),
}
}
}
impl<T> Service for Client<T>
where
T: Service<Request = TcpConnect<String>, Error = ConnectError>,
T::Response: AsyncRead + AsyncWrite + 'static,
T::Future: 'static,
{
type Request = Connect;
type Response = Framed<T::Response, Codec>;
type Error = ClientError;
type Future = Either<
FutureResult<Self::Response, Self::Error>,
ClientResponseFut<T::Response>,
>;
fn poll_ready(&mut self) -> Poll<(), Self::Error> {
self.connector.poll_ready().map_err(ClientError::from)
}
fn call(&mut self, mut req: Connect) -> Self::Future {
if let Some(e) = req.err.take() {
Either::A(err(e))
} else if let Some(e) = req.http_err.take() {
Either::A(err(e.into()))
} else {
// origin
if let Some(origin) = req.origin.take() {
req.head.headers.insert(header::ORIGIN, origin);
}
req.head.set_connection_type(ConnectionType::Upgrade);
req.head
.headers
.insert(header::UPGRADE, HeaderValue::from_static("websocket"));
req.head.headers.insert(
header::SEC_WEBSOCKET_VERSION,
HeaderValue::from_static("13"),
);
if let Some(protocols) = req.protocols.take() {
req.head.headers.insert(
header::SEC_WEBSOCKET_PROTOCOL,
HeaderValue::try_from(protocols.as_str()).unwrap(),
);
}
if let Some(e) = req.http_err {
return Either::A(err(e.into()));
};
let mut request = req.head;
if request.uri.host().is_none() {
return Either::A(err(ClientError::InvalidUrl));
}
// supported protocols
let proto = if let Some(scheme) = request.uri.scheme_part() {
match Protocol::from(scheme.as_str()) {
Some(proto) => proto,
None => return Either::A(err(ClientError::InvalidUrl)),
}
} else {
return Either::A(err(ClientError::InvalidUrl));
};
// Generate a random key for the `Sec-WebSocket-Key` header.
// a base64-encoded (see Section 4 of [RFC4648]) value that,
// when decoded, is 16 bytes in length (RFC 6455)
let sec_key: [u8; 16] = rand::random();
let key = base64::encode(&sec_key);
request.headers.insert(
header::SEC_WEBSOCKET_KEY,
HeaderValue::try_from(key.as_str()).unwrap(),
);
// prep connection
let connect = TcpConnect::new(request.uri.host().unwrap().to_string())
.set_port(request.uri.port_u16().unwrap_or_else(|| proto.port()));
let fut = Box::new(
self.connector
.call(connect)
.map_err(ClientError::from)
.and_then(move |io| {
// h1 protocol
let framed = Framed::new(io, h1::ClientCodec::default());
framed
.send((request, BodyLength::None).into())
.map_err(ClientError::from)
.and_then(|framed| {
framed
.into_future()
.map_err(|(e, _)| ClientError::from(e))
})
}),
);
// start handshake
Either::B(ClientResponseFut {
key,
fut,
max_size: req.max_size,
server_mode: req.server_mode,
_t: PhantomData,
})
}
}
}
/// Future that implementes client websocket handshake process.
///
/// It resolves to a `Framed<T, ws::Codec>` instance.
pub struct ClientResponseFut<T>
where
T: AsyncRead + AsyncWrite,
{
fut: Box<
Future<
Item = (Option<ResponseHead>, Framed<T, h1::ClientCodec>),
Error = ClientError,
>,
>,
key: String,
max_size: usize,
server_mode: bool,
_t: PhantomData<T>,
}
impl<T> Future for ClientResponseFut<T>
where
T: AsyncRead + AsyncWrite,
{
type Item = Framed<T, Codec>;
type Error = ClientError;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
let (item, framed) = try_ready!(self.fut.poll());
let res = match item {
Some(res) => res,
None => return Err(ClientError::Disconnected),
};
// verify response
if res.status != StatusCode::SWITCHING_PROTOCOLS {
return Err(ClientError::InvalidResponseStatus(res.status));
}
// Check for "UPGRADE" to websocket header
let has_hdr = if let Some(hdr) = res.headers.get(header::UPGRADE) {
if let Ok(s) = hdr.to_str() {
s.to_lowercase().contains("websocket")
} else {
false
}
} else {
false
};
if !has_hdr {
trace!("Invalid upgrade header");
return Err(ClientError::InvalidUpgradeHeader);
}
// Check for "CONNECTION" header
if let Some(conn) = res.headers.get(header::CONNECTION) {
if let Ok(s) = conn.to_str() {
if !s.to_lowercase().contains("upgrade") {
trace!("Invalid connection header: {}", s);
return Err(ClientError::InvalidConnectionHeader(conn.clone()));
}
} else {
trace!("Invalid connection header: {:?}", conn);
return Err(ClientError::InvalidConnectionHeader(conn.clone()));
}
} else {
trace!("Missing connection header");
return Err(ClientError::MissingConnectionHeader);
}
if let Some(key) = res.headers.get(header::SEC_WEBSOCKET_ACCEPT) {
// field is constructed by concatenating /key/
// with the string "258EAFA5-E914-47DA-95CA-C5AB0DC85B11" (RFC 6455)
const WS_GUID: &[u8] = b"258EAFA5-E914-47DA-95CA-C5AB0DC85B11";
let mut sha1 = Sha1::new();
sha1.update(self.key.as_ref());
sha1.update(WS_GUID);
let encoded = base64::encode(&sha1.digest().bytes());
if key.as_bytes() != encoded.as_bytes() {
trace!(
"Invalid challenge response: expected: {} received: {:?}",
encoded,
key
);
return Err(ClientError::InvalidChallengeResponse(encoded, key.clone()));
}
} else {
trace!("Missing SEC-WEBSOCKET-ACCEPT header");
return Err(ClientError::MissingWebSocketAcceptHeader);
};
// websockets codec
let codec = if self.server_mode {
Codec::new().max_size(self.max_size)
} else {
Codec::new().max_size(self.max_size).client_mode()
};
Ok(Async::Ready(framed.into_framed(codec)))
}
}

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use actix_codec::{Decoder, Encoder};
use bytes::{Bytes, BytesMut};
use super::frame::Parser;
use super::proto::{CloseReason, OpCode};
use super::ProtocolError;
/// `WebSocket` Message
#[derive(Debug, PartialEq)]
pub enum Message {
/// Text message
Text(String),
/// Binary message
Binary(Bytes),
/// Ping message
Ping(String),
/// Pong message
Pong(String),
/// Close message with optional reason
Close(Option<CloseReason>),
}
/// `WebSocket` frame
#[derive(Debug, PartialEq)]
pub enum Frame {
/// Text frame, codec does not verify utf8 encoding
Text(Option<BytesMut>),
/// Binary frame
Binary(Option<BytesMut>),
/// Ping message
Ping(String),
/// Pong message
Pong(String),
/// Close message with optional reason
Close(Option<CloseReason>),
}
#[derive(Debug)]
/// WebSockets protocol codec
pub struct Codec {
max_size: usize,
server: bool,
}
impl Codec {
/// Create new websocket frames decoder
pub fn new() -> Codec {
Codec {
max_size: 65_536,
server: true,
}
}
/// Set max frame size
///
/// By default max size is set to 64kb
pub fn max_size(mut self, size: usize) -> Self {
self.max_size = size;
self
}
/// Set decoder to client mode.
///
/// By default decoder works in server mode.
pub fn client_mode(mut self) -> Self {
self.server = false;
self
}
}
impl Encoder for Codec {
type Item = Message;
type Error = ProtocolError;
fn encode(&mut self, item: Message, dst: &mut BytesMut) -> Result<(), Self::Error> {
match item {
Message::Text(txt) => {
Parser::write_message(dst, txt, OpCode::Text, true, !self.server)
}
Message::Binary(bin) => {
Parser::write_message(dst, bin, OpCode::Binary, true, !self.server)
}
Message::Ping(txt) => {
Parser::write_message(dst, txt, OpCode::Ping, true, !self.server)
}
Message::Pong(txt) => {
Parser::write_message(dst, txt, OpCode::Pong, true, !self.server)
}
Message::Close(reason) => Parser::write_close(dst, reason, !self.server),
}
Ok(())
}
}
impl Decoder for Codec {
type Item = Frame;
type Error = ProtocolError;
fn decode(&mut self, src: &mut BytesMut) -> Result<Option<Self::Item>, Self::Error> {
match Parser::parse(src, self.server, self.max_size) {
Ok(Some((finished, opcode, payload))) => {
// continuation is not supported
if !finished {
return Err(ProtocolError::NoContinuation);
}
match opcode {
OpCode::Continue => Err(ProtocolError::NoContinuation),
OpCode::Bad => Err(ProtocolError::BadOpCode),
OpCode::Close => {
if let Some(ref pl) = payload {
let close_reason = Parser::parse_close_payload(pl);
Ok(Some(Frame::Close(close_reason)))
} else {
Ok(Some(Frame::Close(None)))
}
}
OpCode::Ping => {
if let Some(ref pl) = payload {
Ok(Some(Frame::Ping(String::from_utf8_lossy(pl).into())))
} else {
Ok(Some(Frame::Ping(String::new())))
}
}
OpCode::Pong => {
if let Some(ref pl) = payload {
Ok(Some(Frame::Pong(String::from_utf8_lossy(pl).into())))
} else {
Ok(Some(Frame::Pong(String::new())))
}
}
OpCode::Binary => Ok(Some(Frame::Binary(payload))),
OpCode::Text => {
Ok(Some(Frame::Text(payload)))
//let tmp = Vec::from(payload.as_ref());
//match String::from_utf8(tmp) {
// Ok(s) => Ok(Some(Message::Text(s))),
// Err(_) => Err(ProtocolError::BadEncoding),
//}
}
}
}
Ok(None) => Ok(None),
Err(e) => Err(e),
}
}
}

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use byteorder::{ByteOrder, LittleEndian, NetworkEndian};
use bytes::{BufMut, Bytes, BytesMut};
use log::debug;
use rand;
use crate::ws::mask::apply_mask;
use crate::ws::proto::{CloseCode, CloseReason, OpCode};
use crate::ws::ProtocolError;
/// A struct representing a `WebSocket` frame.
#[derive(Debug)]
pub struct Parser;
impl Parser {
fn parse_metadata(
src: &[u8],
server: bool,
max_size: usize,
) -> Result<Option<(usize, bool, OpCode, usize, Option<u32>)>, ProtocolError> {
let chunk_len = src.len();
let mut idx = 2;
if chunk_len < 2 {
return Ok(None);
}
let first = src[0];
let second = src[1];
let finished = first & 0x80 != 0;
// check masking
let masked = second & 0x80 != 0;
if !masked && server {
return Err(ProtocolError::UnmaskedFrame);
} else if masked && !server {
return Err(ProtocolError::MaskedFrame);
}
// Op code
let opcode = OpCode::from(first & 0x0F);
if let OpCode::Bad = opcode {
return Err(ProtocolError::InvalidOpcode(first & 0x0F));
}
let len = second & 0x7F;
let length = if len == 126 {
if chunk_len < 4 {
return Ok(None);
}
let len = NetworkEndian::read_uint(&src[idx..], 2) as usize;
idx += 2;
len
} else if len == 127 {
if chunk_len < 10 {
return Ok(None);
}
let len = NetworkEndian::read_uint(&src[idx..], 8);
if len > max_size as u64 {
return Err(ProtocolError::Overflow);
}
idx += 8;
len as usize
} else {
len as usize
};
// check for max allowed size
if length > max_size {
return Err(ProtocolError::Overflow);
}
let mask = if server {
if chunk_len < idx + 4 {
return Ok(None);
}
let mask: &[u8] = &src[idx..idx + 4];
let mask_u32 = LittleEndian::read_u32(mask);
idx += 4;
Some(mask_u32)
} else {
None
};
Ok(Some((idx, finished, opcode, length, mask)))
}
/// Parse the input stream into a frame.
pub fn parse(
src: &mut BytesMut,
server: bool,
max_size: usize,
) -> Result<Option<(bool, OpCode, Option<BytesMut>)>, ProtocolError> {
// try to parse ws frame metadata
let (idx, finished, opcode, length, mask) =
match Parser::parse_metadata(src, server, max_size)? {
None => return Ok(None),
Some(res) => res,
};
// not enough data
if src.len() < idx + length {
return Ok(None);
}
// remove prefix
src.split_to(idx);
// no need for body
if length == 0 {
return Ok(Some((finished, opcode, None)));
}
let mut data = src.split_to(length);
// control frames must have length <= 125
match opcode {
OpCode::Ping | OpCode::Pong if length > 125 => {
return Err(ProtocolError::InvalidLength(length));
}
OpCode::Close if length > 125 => {
debug!("Received close frame with payload length exceeding 125. Morphing to protocol close frame.");
return Ok(Some((true, OpCode::Close, None)));
}
_ => (),
}
// unmask
if let Some(mask) = mask {
apply_mask(&mut data, mask);
}
Ok(Some((finished, opcode, Some(data))))
}
/// Parse the payload of a close frame.
pub fn parse_close_payload(payload: &[u8]) -> Option<CloseReason> {
if payload.len() >= 2 {
let raw_code = NetworkEndian::read_u16(payload);
let code = CloseCode::from(raw_code);
let description = if payload.len() > 2 {
Some(String::from_utf8_lossy(&payload[2..]).into())
} else {
None
};
Some(CloseReason { code, description })
} else {
None
}
}
/// Generate binary representation
pub fn write_message<B: Into<Bytes>>(
dst: &mut BytesMut,
pl: B,
op: OpCode,
fin: bool,
mask: bool,
) {
let payload = pl.into();
let one: u8 = if fin {
0x80 | Into::<u8>::into(op)
} else {
op.into()
};
let payload_len = payload.len();
let (two, p_len) = if mask {
(0x80, payload_len + 4)
} else {
(0, payload_len)
};
if payload_len < 126 {
dst.put_slice(&[one, two | payload_len as u8]);
} else if payload_len <= 65_535 {
dst.reserve(p_len + 4);
dst.put_slice(&[one, two | 126]);
dst.put_u16_be(payload_len as u16);
} else {
dst.reserve(p_len + 10);
dst.put_slice(&[one, two | 127]);
dst.put_u64_be(payload_len as u64);
};
if mask {
let mask = rand::random::<u32>();
dst.put_u32_le(mask);
dst.extend_from_slice(payload.as_ref());
let pos = dst.len() - payload_len;
apply_mask(&mut dst[pos..], mask);
} else {
dst.put_slice(payload.as_ref());
}
}
/// Create a new Close control frame.
#[inline]
pub fn write_close(dst: &mut BytesMut, reason: Option<CloseReason>, mask: bool) {
let payload = match reason {
None => Vec::new(),
Some(reason) => {
let mut code_bytes = [0; 2];
NetworkEndian::write_u16(&mut code_bytes, reason.code.into());
let mut payload = Vec::from(&code_bytes[..]);
if let Some(description) = reason.description {
payload.extend(description.as_bytes());
}
payload
}
};
Parser::write_message(dst, payload, OpCode::Close, true, mask)
}
}
#[cfg(test)]
mod tests {
use super::*;
use bytes::Bytes;
struct F {
finished: bool,
opcode: OpCode,
payload: Bytes,
}
fn is_none(
frm: &Result<Option<(bool, OpCode, Option<BytesMut>)>, ProtocolError>,
) -> bool {
match *frm {
Ok(None) => true,
_ => false,
}
}
fn extract(
frm: Result<Option<(bool, OpCode, Option<BytesMut>)>, ProtocolError>,
) -> F {
match frm {
Ok(Some((finished, opcode, payload))) => F {
finished,
opcode,
payload: payload
.map(|b| b.freeze())
.unwrap_or_else(|| Bytes::from("")),
},
_ => unreachable!("error"),
}
}
#[test]
fn test_parse() {
let mut buf = BytesMut::from(&[0b0000_0001u8, 0b0000_0001u8][..]);
assert!(is_none(&Parser::parse(&mut buf, false, 1024)));
let mut buf = BytesMut::from(&[0b0000_0001u8, 0b0000_0001u8][..]);
buf.extend(b"1");
let frame = extract(Parser::parse(&mut buf, false, 1024));
assert!(!frame.finished);
assert_eq!(frame.opcode, OpCode::Text);
assert_eq!(frame.payload.as_ref(), &b"1"[..]);
}
#[test]
fn test_parse_length0() {
let mut buf = BytesMut::from(&[0b0000_0001u8, 0b0000_0000u8][..]);
let frame = extract(Parser::parse(&mut buf, false, 1024));
assert!(!frame.finished);
assert_eq!(frame.opcode, OpCode::Text);
assert!(frame.payload.is_empty());
}
#[test]
fn test_parse_length2() {
let mut buf = BytesMut::from(&[0b0000_0001u8, 126u8][..]);
assert!(is_none(&Parser::parse(&mut buf, false, 1024)));
let mut buf = BytesMut::from(&[0b0000_0001u8, 126u8][..]);
buf.extend(&[0u8, 4u8][..]);
buf.extend(b"1234");
let frame = extract(Parser::parse(&mut buf, false, 1024));
assert!(!frame.finished);
assert_eq!(frame.opcode, OpCode::Text);
assert_eq!(frame.payload.as_ref(), &b"1234"[..]);
}
#[test]
fn test_parse_length4() {
let mut buf = BytesMut::from(&[0b0000_0001u8, 127u8][..]);
assert!(is_none(&Parser::parse(&mut buf, false, 1024)));
let mut buf = BytesMut::from(&[0b0000_0001u8, 127u8][..]);
buf.extend(&[0u8, 0u8, 0u8, 0u8, 0u8, 0u8, 0u8, 4u8][..]);
buf.extend(b"1234");
let frame = extract(Parser::parse(&mut buf, false, 1024));
assert!(!frame.finished);
assert_eq!(frame.opcode, OpCode::Text);
assert_eq!(frame.payload.as_ref(), &b"1234"[..]);
}
#[test]
fn test_parse_frame_mask() {
let mut buf = BytesMut::from(&[0b0000_0001u8, 0b1000_0001u8][..]);
buf.extend(b"0001");
buf.extend(b"1");
assert!(Parser::parse(&mut buf, false, 1024).is_err());
let frame = extract(Parser::parse(&mut buf, true, 1024));
assert!(!frame.finished);
assert_eq!(frame.opcode, OpCode::Text);
assert_eq!(frame.payload, Bytes::from(vec![1u8]));
}
#[test]
fn test_parse_frame_no_mask() {
let mut buf = BytesMut::from(&[0b0000_0001u8, 0b0000_0001u8][..]);
buf.extend(&[1u8]);
assert!(Parser::parse(&mut buf, true, 1024).is_err());
let frame = extract(Parser::parse(&mut buf, false, 1024));
assert!(!frame.finished);
assert_eq!(frame.opcode, OpCode::Text);
assert_eq!(frame.payload, Bytes::from(vec![1u8]));
}
#[test]
fn test_parse_frame_max_size() {
let mut buf = BytesMut::from(&[0b0000_0001u8, 0b0000_0010u8][..]);
buf.extend(&[1u8, 1u8]);
assert!(Parser::parse(&mut buf, true, 1).is_err());
if let Err(ProtocolError::Overflow) = Parser::parse(&mut buf, false, 0) {
} else {
unreachable!("error");
}
}
#[test]
fn test_ping_frame() {
let mut buf = BytesMut::new();
Parser::write_message(&mut buf, Vec::from("data"), OpCode::Ping, true, false);
let mut v = vec![137u8, 4u8];
v.extend(b"data");
assert_eq!(&buf[..], &v[..]);
}
#[test]
fn test_pong_frame() {
let mut buf = BytesMut::new();
Parser::write_message(&mut buf, Vec::from("data"), OpCode::Pong, true, false);
let mut v = vec![138u8, 4u8];
v.extend(b"data");
assert_eq!(&buf[..], &v[..]);
}
#[test]
fn test_close_frame() {
let mut buf = BytesMut::new();
let reason = (CloseCode::Normal, "data");
Parser::write_close(&mut buf, Some(reason.into()), false);
let mut v = vec![136u8, 6u8, 3u8, 232u8];
v.extend(b"data");
assert_eq!(&buf[..], &v[..]);
}
#[test]
fn test_empty_close_frame() {
let mut buf = BytesMut::new();
Parser::write_close(&mut buf, None, false);
assert_eq!(&buf[..], &vec![0x88, 0x00][..]);
}
}

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//! This is code from [Tungstenite project](https://github.com/snapview/tungstenite-rs)
#![allow(clippy::cast_ptr_alignment)]
use std::ptr::copy_nonoverlapping;
use std::slice;
// Holds a slice guaranteed to be shorter than 8 bytes
struct ShortSlice<'a>(&'a mut [u8]);
impl<'a> ShortSlice<'a> {
unsafe fn new(slice: &'a mut [u8]) -> Self {
// Sanity check for debug builds
debug_assert!(slice.len() < 8);
ShortSlice(slice)
}
fn len(&self) -> usize {
self.0.len()
}
}
/// Faster version of `apply_mask()` which operates on 8-byte blocks.
#[inline]
#[allow(clippy::cast_lossless)]
pub(crate) fn apply_mask(buf: &mut [u8], mask_u32: u32) {
// Extend the mask to 64 bits
let mut mask_u64 = ((mask_u32 as u64) << 32) | (mask_u32 as u64);
// Split the buffer into three segments
let (head, mid, tail) = align_buf(buf);
// Initial unaligned segment
let head_len = head.len();
if head_len > 0 {
xor_short(head, mask_u64);
if cfg!(target_endian = "big") {
mask_u64 = mask_u64.rotate_left(8 * head_len as u32);
} else {
mask_u64 = mask_u64.rotate_right(8 * head_len as u32);
}
}
// Aligned segment
for v in mid {
*v ^= mask_u64;
}
// Final unaligned segment
if tail.len() > 0 {
xor_short(tail, mask_u64);
}
}
#[inline]
// TODO: copy_nonoverlapping here compiles to call memcpy. While it is not so
// inefficient, it could be done better. The compiler does not understand that
// a `ShortSlice` must be smaller than a u64.
#[allow(clippy::needless_pass_by_value)]
fn xor_short(buf: ShortSlice, mask: u64) {
// Unsafe: we know that a `ShortSlice` fits in a u64
unsafe {
let (ptr, len) = (buf.0.as_mut_ptr(), buf.0.len());
let mut b: u64 = 0;
#[allow(trivial_casts)]
copy_nonoverlapping(ptr, &mut b as *mut _ as *mut u8, len);
b ^= mask;
#[allow(trivial_casts)]
copy_nonoverlapping(&b as *const _ as *const u8, ptr, len);
}
}
#[inline]
// Unsafe: caller must ensure the buffer has the correct size and alignment
unsafe fn cast_slice(buf: &mut [u8]) -> &mut [u64] {
// Assert correct size and alignment in debug builds
debug_assert!(buf.len().trailing_zeros() >= 3);
debug_assert!((buf.as_ptr() as usize).trailing_zeros() >= 3);
slice::from_raw_parts_mut(buf.as_mut_ptr() as *mut u64, buf.len() >> 3)
}
#[inline]
// Splits a slice into three parts: an unaligned short head and tail, plus an aligned
// u64 mid section.
fn align_buf(buf: &mut [u8]) -> (ShortSlice, &mut [u64], ShortSlice) {
let start_ptr = buf.as_ptr() as usize;
let end_ptr = start_ptr + buf.len();
// Round *up* to next aligned boundary for start
let start_aligned = (start_ptr + 7) & !0x7;
// Round *down* to last aligned boundary for end
let end_aligned = end_ptr & !0x7;
if end_aligned >= start_aligned {
// We have our three segments (head, mid, tail)
let (tmp, tail) = buf.split_at_mut(end_aligned - start_ptr);
let (head, mid) = tmp.split_at_mut(start_aligned - start_ptr);
// Unsafe: we know the middle section is correctly aligned, and the outer
// sections are smaller than 8 bytes
unsafe { (ShortSlice::new(head), cast_slice(mid), ShortSlice(tail)) }
} else {
// We didn't cross even one aligned boundary!
// Unsafe: The outer sections are smaller than 8 bytes
unsafe { (ShortSlice::new(buf), &mut [], ShortSlice::new(&mut [])) }
}
}
#[cfg(test)]
mod tests {
use super::apply_mask;
use byteorder::{ByteOrder, LittleEndian};
/// A safe unoptimized mask application.
fn apply_mask_fallback(buf: &mut [u8], mask: &[u8; 4]) {
for (i, byte) in buf.iter_mut().enumerate() {
*byte ^= mask[i & 3];
}
}
#[test]
fn test_apply_mask() {
let mask = [0x6d, 0xb6, 0xb2, 0x80];
let mask_u32: u32 = LittleEndian::read_u32(&mask);
let unmasked = vec![
0xf3, 0x00, 0x01, 0x02, 0x03, 0x80, 0x81, 0x82, 0xff, 0xfe, 0x00, 0x17,
0x74, 0xf9, 0x12, 0x03,
];
// Check masking with proper alignment.
{
let mut masked = unmasked.clone();
apply_mask_fallback(&mut masked, &mask);
let mut masked_fast = unmasked.clone();
apply_mask(&mut masked_fast, mask_u32);
assert_eq!(masked, masked_fast);
}
// Check masking without alignment.
{
let mut masked = unmasked.clone();
apply_mask_fallback(&mut masked[1..], &mask);
let mut masked_fast = unmasked.clone();
apply_mask(&mut masked_fast[1..], mask_u32);
assert_eq!(masked, masked_fast);
}
}
}

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//! WebSocket protocol support.
//!
//! To setup a `WebSocket`, first do web socket handshake then on success
//! convert `Payload` into a `WsStream` stream and then use `WsWriter` to
//! communicate with the peer.
use std::io;
use derive_more::{Display, From};
use http::{header, Method, StatusCode};
use crate::error::ResponseError;
use crate::httpmessage::HttpMessage;
use crate::request::Request;
use crate::response::{Response, ResponseBuilder};
mod client;
mod codec;
mod frame;
mod mask;
mod proto;
mod service;
mod transport;
pub use self::client::{Client, ClientError, Connect};
pub use self::codec::{Codec, Frame, Message};
pub use self::frame::Parser;
pub use self::proto::{hash_key, CloseCode, CloseReason, OpCode};
pub use self::service::VerifyWebSockets;
pub use self::transport::Transport;
/// Websocket protocol errors
#[derive(Debug, Display, From)]
pub enum ProtocolError {
/// Received an unmasked frame from client
#[display(fmt = "Received an unmasked frame from client")]
UnmaskedFrame,
/// Received a masked frame from server
#[display(fmt = "Received a masked frame from server")]
MaskedFrame,
/// Encountered invalid opcode
#[display(fmt = "Invalid opcode: {}", _0)]
InvalidOpcode(u8),
/// Invalid control frame length
#[display(fmt = "Invalid control frame length: {}", _0)]
InvalidLength(usize),
/// Bad web socket op code
#[display(fmt = "Bad web socket op code")]
BadOpCode,
/// A payload reached size limit.
#[display(fmt = "A payload reached size limit.")]
Overflow,
/// Continuation is not supported
#[display(fmt = "Continuation is not supported.")]
NoContinuation,
/// Bad utf-8 encoding
#[display(fmt = "Bad utf-8 encoding.")]
BadEncoding,
/// Io error
#[display(fmt = "io error: {}", _0)]
Io(io::Error),
}
impl ResponseError for ProtocolError {}
/// Websocket handshake errors
#[derive(PartialEq, Debug, Display)]
pub enum HandshakeError {
/// Only get method is allowed
#[display(fmt = "Method not allowed")]
GetMethodRequired,
/// Upgrade header if not set to websocket
#[display(fmt = "Websocket upgrade is expected")]
NoWebsocketUpgrade,
/// Connection header is not set to upgrade
#[display(fmt = "Connection upgrade is expected")]
NoConnectionUpgrade,
/// Websocket version header is not set
#[display(fmt = "Websocket version header is required")]
NoVersionHeader,
/// Unsupported websocket version
#[display(fmt = "Unsupported version")]
UnsupportedVersion,
/// Websocket key is not set or wrong
#[display(fmt = "Unknown websocket key")]
BadWebsocketKey,
}
impl ResponseError for HandshakeError {
fn error_response(&self) -> Response {
match *self {
HandshakeError::GetMethodRequired => Response::MethodNotAllowed()
.header(header::ALLOW, "GET")
.finish(),
HandshakeError::NoWebsocketUpgrade => Response::BadRequest()
.reason("No WebSocket UPGRADE header found")
.finish(),
HandshakeError::NoConnectionUpgrade => Response::BadRequest()
.reason("No CONNECTION upgrade")
.finish(),
HandshakeError::NoVersionHeader => Response::BadRequest()
.reason("Websocket version header is required")
.finish(),
HandshakeError::UnsupportedVersion => Response::BadRequest()
.reason("Unsupported version")
.finish(),
HandshakeError::BadWebsocketKey => {
Response::BadRequest().reason("Handshake error").finish()
}
}
}
}
/// Verify `WebSocket` handshake request and create handshake reponse.
// /// `protocols` is a sequence of known protocols. On successful handshake,
// /// the returned response headers contain the first protocol in this list
// /// which the server also knows.
pub fn handshake(req: &Request) -> Result<ResponseBuilder, HandshakeError> {
verify_handshake(req)?;
Ok(handshake_response(req))
}
/// Verify `WebSocket` handshake request.
// /// `protocols` is a sequence of known protocols. On successful handshake,
// /// the returned response headers contain the first protocol in this list
// /// which the server also knows.
pub fn verify_handshake(req: &Request) -> Result<(), HandshakeError> {
// WebSocket accepts only GET
if *req.method() != Method::GET {
return Err(HandshakeError::GetMethodRequired);
}
// Check for "UPGRADE" to websocket header
let has_hdr = if let Some(hdr) = req.headers().get(header::UPGRADE) {
if let Ok(s) = hdr.to_str() {
s.to_ascii_lowercase().contains("websocket")
} else {
false
}
} else {
false
};
if !has_hdr {
return Err(HandshakeError::NoWebsocketUpgrade);
}
// Upgrade connection
if !req.upgrade() {
return Err(HandshakeError::NoConnectionUpgrade);
}
// check supported version
if !req.headers().contains_key(header::SEC_WEBSOCKET_VERSION) {
return Err(HandshakeError::NoVersionHeader);
}
let supported_ver = {
if let Some(hdr) = req.headers().get(header::SEC_WEBSOCKET_VERSION) {
hdr == "13" || hdr == "8" || hdr == "7"
} else {
false
}
};
if !supported_ver {
return Err(HandshakeError::UnsupportedVersion);
}
// check client handshake for validity
if !req.headers().contains_key(header::SEC_WEBSOCKET_KEY) {
return Err(HandshakeError::BadWebsocketKey);
}
Ok(())
}
/// Create websocket's handshake response
///
/// This function returns handshake `Response`, ready to send to peer.
pub fn handshake_response(req: &Request) -> ResponseBuilder {
let key = {
let key = req.headers().get(header::SEC_WEBSOCKET_KEY).unwrap();
proto::hash_key(key.as_ref())
};
Response::build(StatusCode::SWITCHING_PROTOCOLS)
.upgrade("websocket")
.header(header::TRANSFER_ENCODING, "chunked")
.header(header::SEC_WEBSOCKET_ACCEPT, key.as_str())
.take()
}
#[cfg(test)]
mod tests {
use super::*;
use crate::test::TestRequest;
use http::{header, Method};
#[test]
fn test_handshake() {
let req = TestRequest::default().method(Method::POST).finish();
assert_eq!(
HandshakeError::GetMethodRequired,
verify_handshake(&req).err().unwrap()
);
let req = TestRequest::default().finish();
assert_eq!(
HandshakeError::NoWebsocketUpgrade,
verify_handshake(&req).err().unwrap()
);
let req = TestRequest::default()
.header(header::UPGRADE, header::HeaderValue::from_static("test"))
.finish();
assert_eq!(
HandshakeError::NoWebsocketUpgrade,
verify_handshake(&req).err().unwrap()
);
let req = TestRequest::default()
.header(
header::UPGRADE,
header::HeaderValue::from_static("websocket"),
)
.finish();
assert_eq!(
HandshakeError::NoConnectionUpgrade,
verify_handshake(&req).err().unwrap()
);
let req = TestRequest::default()
.header(
header::UPGRADE,
header::HeaderValue::from_static("websocket"),
)
.header(
header::CONNECTION,
header::HeaderValue::from_static("upgrade"),
)
.finish();
assert_eq!(
HandshakeError::NoVersionHeader,
verify_handshake(&req).err().unwrap()
);
let req = TestRequest::default()
.header(
header::UPGRADE,
header::HeaderValue::from_static("websocket"),
)
.header(
header::CONNECTION,
header::HeaderValue::from_static("upgrade"),
)
.header(
header::SEC_WEBSOCKET_VERSION,
header::HeaderValue::from_static("5"),
)
.finish();
assert_eq!(
HandshakeError::UnsupportedVersion,
verify_handshake(&req).err().unwrap()
);
let req = TestRequest::default()
.header(
header::UPGRADE,
header::HeaderValue::from_static("websocket"),
)
.header(
header::CONNECTION,
header::HeaderValue::from_static("upgrade"),
)
.header(
header::SEC_WEBSOCKET_VERSION,
header::HeaderValue::from_static("13"),
)
.finish();
assert_eq!(
HandshakeError::BadWebsocketKey,
verify_handshake(&req).err().unwrap()
);
let req = TestRequest::default()
.header(
header::UPGRADE,
header::HeaderValue::from_static("websocket"),
)
.header(
header::CONNECTION,
header::HeaderValue::from_static("upgrade"),
)
.header(
header::SEC_WEBSOCKET_VERSION,
header::HeaderValue::from_static("13"),
)
.header(
header::SEC_WEBSOCKET_KEY,
header::HeaderValue::from_static("13"),
)
.finish();
assert_eq!(
StatusCode::SWITCHING_PROTOCOLS,
handshake_response(&req).finish().status()
);
}
#[test]
fn test_wserror_http_response() {
let resp: Response = HandshakeError::GetMethodRequired.error_response();
assert_eq!(resp.status(), StatusCode::METHOD_NOT_ALLOWED);
let resp: Response = HandshakeError::NoWebsocketUpgrade.error_response();
assert_eq!(resp.status(), StatusCode::BAD_REQUEST);
let resp: Response = HandshakeError::NoConnectionUpgrade.error_response();
assert_eq!(resp.status(), StatusCode::BAD_REQUEST);
let resp: Response = HandshakeError::NoVersionHeader.error_response();
assert_eq!(resp.status(), StatusCode::BAD_REQUEST);
let resp: Response = HandshakeError::UnsupportedVersion.error_response();
assert_eq!(resp.status(), StatusCode::BAD_REQUEST);
let resp: Response = HandshakeError::BadWebsocketKey.error_response();
assert_eq!(resp.status(), StatusCode::BAD_REQUEST);
}
}

318
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use base64;
use sha1;
use std::convert::{From, Into};
use std::fmt;
use self::OpCode::*;
/// Operation codes as part of rfc6455.
#[derive(Debug, Eq, PartialEq, Clone, Copy)]
pub enum OpCode {
/// Indicates a continuation frame of a fragmented message.
Continue,
/// Indicates a text data frame.
Text,
/// Indicates a binary data frame.
Binary,
/// Indicates a close control frame.
Close,
/// Indicates a ping control frame.
Ping,
/// Indicates a pong control frame.
Pong,
/// Indicates an invalid opcode was received.
Bad,
}
impl fmt::Display for OpCode {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match *self {
Continue => write!(f, "CONTINUE"),
Text => write!(f, "TEXT"),
Binary => write!(f, "BINARY"),
Close => write!(f, "CLOSE"),
Ping => write!(f, "PING"),
Pong => write!(f, "PONG"),
Bad => write!(f, "BAD"),
}
}
}
impl Into<u8> for OpCode {
fn into(self) -> u8 {
match self {
Continue => 0,
Text => 1,
Binary => 2,
Close => 8,
Ping => 9,
Pong => 10,
Bad => {
debug_assert!(
false,
"Attempted to convert invalid opcode to u8. This is a bug."
);
8 // if this somehow happens, a close frame will help us tear down quickly
}
}
}
}
impl From<u8> for OpCode {
fn from(byte: u8) -> OpCode {
match byte {
0 => Continue,
1 => Text,
2 => Binary,
8 => Close,
9 => Ping,
10 => Pong,
_ => Bad,
}
}
}
use self::CloseCode::*;
/// Status code used to indicate why an endpoint is closing the `WebSocket`
/// connection.
#[derive(Debug, Eq, PartialEq, Clone, Copy)]
pub enum CloseCode {
/// Indicates a normal closure, meaning that the purpose for
/// which the connection was established has been fulfilled.
Normal,
/// Indicates that an endpoint is "going away", such as a server
/// going down or a browser having navigated away from a page.
Away,
/// Indicates that an endpoint is terminating the connection due
/// to a protocol error.
Protocol,
/// Indicates that an endpoint is terminating the connection
/// because it has received a type of data it cannot accept (e.g., an
/// endpoint that understands only text data MAY send this if it
/// receives a binary message).
Unsupported,
/// Indicates an abnormal closure. If the abnormal closure was due to an
/// error, this close code will not be used. Instead, the `on_error` method
/// of the handler will be called with the error. However, if the connection
/// is simply dropped, without an error, this close code will be sent to the
/// handler.
Abnormal,
/// Indicates that an endpoint is terminating the connection
/// because it has received data within a message that was not
/// consistent with the type of the message (e.g., non-UTF-8 [RFC3629]
/// data within a text message).
Invalid,
/// Indicates that an endpoint is terminating the connection
/// because it has received a message that violates its policy. This
/// is a generic status code that can be returned when there is no
/// other more suitable status code (e.g., Unsupported or Size) or if there
/// is a need to hide specific details about the policy.
Policy,
/// Indicates that an endpoint is terminating the connection
/// because it has received a message that is too big for it to
/// process.
Size,
/// Indicates that an endpoint (client) is terminating the
/// connection because it has expected the server to negotiate one or
/// more extension, but the server didn't return them in the response
/// message of the WebSocket handshake. The list of extensions that
/// are needed should be given as the reason for closing.
/// Note that this status code is not used by the server, because it
/// can fail the WebSocket handshake instead.
Extension,
/// Indicates that a server is terminating the connection because
/// it encountered an unexpected condition that prevented it from
/// fulfilling the request.
Error,
/// Indicates that the server is restarting. A client may choose to
/// reconnect, and if it does, it should use a randomized delay of 5-30
/// seconds between attempts.
Restart,
/// Indicates that the server is overloaded and the client should either
/// connect to a different IP (when multiple targets exist), or
/// reconnect to the same IP when a user has performed an action.
Again,
#[doc(hidden)]
Tls,
#[doc(hidden)]
Other(u16),
}
impl Into<u16> for CloseCode {
fn into(self) -> u16 {
match self {
Normal => 1000,
Away => 1001,
Protocol => 1002,
Unsupported => 1003,
Abnormal => 1006,
Invalid => 1007,
Policy => 1008,
Size => 1009,
Extension => 1010,
Error => 1011,
Restart => 1012,
Again => 1013,
Tls => 1015,
Other(code) => code,
}
}
}
impl From<u16> for CloseCode {
fn from(code: u16) -> CloseCode {
match code {
1000 => Normal,
1001 => Away,
1002 => Protocol,
1003 => Unsupported,
1006 => Abnormal,
1007 => Invalid,
1008 => Policy,
1009 => Size,
1010 => Extension,
1011 => Error,
1012 => Restart,
1013 => Again,
1015 => Tls,
_ => Other(code),
}
}
}
#[derive(Debug, Eq, PartialEq, Clone)]
/// Reason for closing the connection
pub struct CloseReason {
/// Exit code
pub code: CloseCode,
/// Optional description of the exit code
pub description: Option<String>,
}
impl From<CloseCode> for CloseReason {
fn from(code: CloseCode) -> Self {
CloseReason {
code,
description: None,
}
}
}
impl<T: Into<String>> From<(CloseCode, T)> for CloseReason {
fn from(info: (CloseCode, T)) -> Self {
CloseReason {
code: info.0,
description: Some(info.1.into()),
}
}
}
static WS_GUID: &'static str = "258EAFA5-E914-47DA-95CA-C5AB0DC85B11";
// TODO: hash is always same size, we dont need String
pub fn hash_key(key: &[u8]) -> String {
let mut hasher = sha1::Sha1::new();
hasher.update(key);
hasher.update(WS_GUID.as_bytes());
base64::encode(&hasher.digest().bytes())
}
#[cfg(test)]
mod test {
#![allow(unused_imports, unused_variables, dead_code)]
use super::*;
macro_rules! opcode_into {
($from:expr => $opcode:pat) => {
match OpCode::from($from) {
e @ $opcode => (),
e => unreachable!("{:?}", e),
}
};
}
macro_rules! opcode_from {
($from:expr => $opcode:pat) => {
let res: u8 = $from.into();
match res {
e @ $opcode => (),
e => unreachable!("{:?}", e),
}
};
}
#[test]
fn test_to_opcode() {
opcode_into!(0 => OpCode::Continue);
opcode_into!(1 => OpCode::Text);
opcode_into!(2 => OpCode::Binary);
opcode_into!(8 => OpCode::Close);
opcode_into!(9 => OpCode::Ping);
opcode_into!(10 => OpCode::Pong);
opcode_into!(99 => OpCode::Bad);
}
#[test]
fn test_from_opcode() {
opcode_from!(OpCode::Continue => 0);
opcode_from!(OpCode::Text => 1);
opcode_from!(OpCode::Binary => 2);
opcode_from!(OpCode::Close => 8);
opcode_from!(OpCode::Ping => 9);
opcode_from!(OpCode::Pong => 10);
}
#[test]
#[should_panic]
fn test_from_opcode_debug() {
opcode_from!(OpCode::Bad => 99);
}
#[test]
fn test_from_opcode_display() {
assert_eq!(format!("{}", OpCode::Continue), "CONTINUE");
assert_eq!(format!("{}", OpCode::Text), "TEXT");
assert_eq!(format!("{}", OpCode::Binary), "BINARY");
assert_eq!(format!("{}", OpCode::Close), "CLOSE");
assert_eq!(format!("{}", OpCode::Ping), "PING");
assert_eq!(format!("{}", OpCode::Pong), "PONG");
assert_eq!(format!("{}", OpCode::Bad), "BAD");
}
#[test]
fn closecode_from_u16() {
assert_eq!(CloseCode::from(1000u16), CloseCode::Normal);
assert_eq!(CloseCode::from(1001u16), CloseCode::Away);
assert_eq!(CloseCode::from(1002u16), CloseCode::Protocol);
assert_eq!(CloseCode::from(1003u16), CloseCode::Unsupported);
assert_eq!(CloseCode::from(1006u16), CloseCode::Abnormal);
assert_eq!(CloseCode::from(1007u16), CloseCode::Invalid);
assert_eq!(CloseCode::from(1008u16), CloseCode::Policy);
assert_eq!(CloseCode::from(1009u16), CloseCode::Size);
assert_eq!(CloseCode::from(1010u16), CloseCode::Extension);
assert_eq!(CloseCode::from(1011u16), CloseCode::Error);
assert_eq!(CloseCode::from(1012u16), CloseCode::Restart);
assert_eq!(CloseCode::from(1013u16), CloseCode::Again);
assert_eq!(CloseCode::from(1015u16), CloseCode::Tls);
assert_eq!(CloseCode::from(2000u16), CloseCode::Other(2000));
}
#[test]
fn closecode_into_u16() {
assert_eq!(1000u16, Into::<u16>::into(CloseCode::Normal));
assert_eq!(1001u16, Into::<u16>::into(CloseCode::Away));
assert_eq!(1002u16, Into::<u16>::into(CloseCode::Protocol));
assert_eq!(1003u16, Into::<u16>::into(CloseCode::Unsupported));
assert_eq!(1006u16, Into::<u16>::into(CloseCode::Abnormal));
assert_eq!(1007u16, Into::<u16>::into(CloseCode::Invalid));
assert_eq!(1008u16, Into::<u16>::into(CloseCode::Policy));
assert_eq!(1009u16, Into::<u16>::into(CloseCode::Size));
assert_eq!(1010u16, Into::<u16>::into(CloseCode::Extension));
assert_eq!(1011u16, Into::<u16>::into(CloseCode::Error));
assert_eq!(1012u16, Into::<u16>::into(CloseCode::Restart));
assert_eq!(1013u16, Into::<u16>::into(CloseCode::Again));
assert_eq!(1015u16, Into::<u16>::into(CloseCode::Tls));
assert_eq!(2000u16, Into::<u16>::into(CloseCode::Other(2000)));
}
}

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use std::marker::PhantomData;
use actix_codec::Framed;
use actix_service::{NewService, Service};
use futures::future::{ok, FutureResult};
use futures::{Async, IntoFuture, Poll};
use crate::h1::Codec;
use crate::request::Request;
use super::{verify_handshake, HandshakeError};
pub struct VerifyWebSockets<T> {
_t: PhantomData<T>,
}
impl<T> Default for VerifyWebSockets<T> {
fn default() -> Self {
VerifyWebSockets { _t: PhantomData }
}
}
impl<T> NewService for VerifyWebSockets<T> {
type Request = (Request, Framed<T, Codec>);
type Response = (Request, Framed<T, Codec>);
type Error = (HandshakeError, Framed<T, Codec>);
type InitError = ();
type Service = VerifyWebSockets<T>;
type Future = FutureResult<Self::Service, Self::InitError>;
fn new_service(&self, _: &()) -> Self::Future {
ok(VerifyWebSockets { _t: PhantomData })
}
}
impl<T> Service for VerifyWebSockets<T> {
type Request = (Request, Framed<T, Codec>);
type Response = (Request, Framed<T, Codec>);
type Error = (HandshakeError, Framed<T, Codec>);
type Future = FutureResult<Self::Response, Self::Error>;
fn poll_ready(&mut self) -> Poll<(), Self::Error> {
Ok(Async::Ready(()))
}
fn call(&mut self, (req, framed): (Request, Framed<T, Codec>)) -> Self::Future {
match verify_handshake(&req) {
Err(e) => Err((e, framed)).into_future(),
Ok(_) => Ok((req, framed)).into_future(),
}
}
}

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use actix_codec::{AsyncRead, AsyncWrite, Framed};
use actix_service::{IntoService, Service};
use actix_utils::framed::{FramedTransport, FramedTransportError};
use futures::{Future, Poll};
use super::{Codec, Frame, Message};
pub struct Transport<S, T>
where
S: Service<Request = Frame, Response = Message> + 'static,
T: AsyncRead + AsyncWrite,
{
inner: FramedTransport<S, T, Codec>,
}
impl<S, T> Transport<S, T>
where
T: AsyncRead + AsyncWrite,
S: Service<Request = Frame, Response = Message>,
S::Future: 'static,
S::Error: 'static,
{
pub fn new<F: IntoService<S>>(io: T, service: F) -> Self {
Transport {
inner: FramedTransport::new(Framed::new(io, Codec::new()), service),
}
}
pub fn with<F: IntoService<S>>(framed: Framed<T, Codec>, service: F) -> Self {
Transport {
inner: FramedTransport::new(framed, service),
}
}
}
impl<S, T> Future for Transport<S, T>
where
T: AsyncRead + AsyncWrite,
S: Service<Request = Frame, Response = Message>,
S::Future: 'static,
S::Error: 'static,
{
type Item = ();
type Error = FramedTransportError<S::Error, Codec>;
fn poll(&mut self) -> Poll<Self::Item, Self::Error> {
self.inner.poll()
}
}

60
actix-http/test-server/Cargo.toml Normal file
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[package]
name = "actix-http-test"
version = "0.1.0"
authors = ["Nikolay Kim <fafhrd91@gmail.com>"]
description = "Actix http"
readme = "README.md"
keywords = ["http", "web", "framework", "async", "futures"]
homepage = "https://actix.rs"
repository = "https://github.com/actix/actix-web.git"
documentation = "https://actix.rs/api/actix-web/stable/actix_web/"
categories = ["network-programming", "asynchronous",
"web-programming::http-server",
"web-programming::websocket"]
license = "MIT/Apache-2.0"
exclude = [".gitignore", ".travis.yml", ".cargo/config", "appveyor.yml"]
edition = "2018"
[package.metadata.docs.rs]
features = ["session"]
[lib]
name = "actix_http_test"
path = "src/lib.rs"
[features]
default = ["session"]
# sessions feature, session require "ring" crate and c compiler
session = ["cookie/secure"]
# openssl
ssl = ["openssl", "actix-http/ssl", "actix-server/ssl", "awc/ssl"]
[dependencies]
actix-codec = "0.1.1"
actix-rt = "0.2.1"
actix-http = { path=".." }
actix-service = "0.3.4"
actix-server = "0.4.0"
actix-utils = "0.3.4"
awc = { git = "https://github.com/actix/actix-web.git" }
base64 = "0.10"
bytes = "0.4"
cookie = { version="0.11", features=["percent-encode"] }
futures = "0.1"
http = "0.1.8"
log = "0.4"
env_logger = "0.6"
net2 = "0.2"
serde = "1.0"
serde_json = "1.0"
sha1 = "0.6"
slab = "0.4"
serde_urlencoded = "0.5.3"
time = "0.1"
tokio-tcp = "0.1"
tokio-timer = "0.2"
openssl = { version="0.10", optional = true }

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//! Various helpers for Actix applications to use during testing.
use std::sync::mpsc;
use std::{net, thread, time};
use actix_codec::{AsyncRead, AsyncWrite, Framed};
use actix_http::client::Connector;
use actix_http::ws;
use actix_rt::{Runtime, System};
use actix_server::{Server, StreamServiceFactory};
use actix_service::Service;
use awc::{Client, ClientRequest};
use futures::future::{lazy, Future};
use http::Method;
use net2::TcpBuilder;
/// The `TestServer` type.
///
/// `TestServer` is very simple test server that simplify process of writing
/// integration tests cases for actix web applications.
///
/// # Examples
///
/// ```rust
/// # extern crate actix_web;
/// # use actix_web::*;
/// #
/// # fn my_handler(req: &HttpRequest) -> HttpResponse {
/// # HttpResponse::Ok().into()
/// # }
/// #
/// # fn main() {
/// use actix_web::test::TestServer;
///
/// let mut srv = TestServer::new(|app| app.handler(my_handler));
///
/// let req = srv.get().finish().unwrap();
/// let response = srv.execute(req.send()).unwrap();
/// assert!(response.status().is_success());
/// # }
/// ```
pub struct TestServer;
/// Test server controller
pub struct TestServerRuntime {
addr: net::SocketAddr,
rt: Runtime,
client: Client,
}
impl TestServer {
/// Start new test server with application factory
pub fn new<F: StreamServiceFactory>(factory: F) -> TestServerRuntime {
let (tx, rx) = mpsc::channel();
// run server in separate thread
thread::spawn(move || {
let sys = System::new("actix-test-server");
let tcp = net::TcpListener::bind("127.0.0.1:0").unwrap();
let local_addr = tcp.local_addr().unwrap();
Server::build()
.listen("test", tcp, factory)?
.workers(1)
.disable_signals()
.start();
tx.send((System::current(), local_addr)).unwrap();
sys.run()
});
let (system, addr) = rx.recv().unwrap();
let mut rt = Runtime::new().unwrap();
let client = rt
.block_on(lazy(move || {
let connector = {
#[cfg(feature = "ssl")]
{
use openssl::ssl::{SslConnector, SslMethod, SslVerifyMode};
let mut builder =
SslConnector::builder(SslMethod::tls()).unwrap();
builder.set_verify(SslVerifyMode::NONE);
let _ = builder.set_alpn_protos(b"\x02h2\x08http/1.1").map_err(
|e| log::error!("Can not set alpn protocol: {:?}", e),
);
Connector::new()
.timeout(time::Duration::from_millis(500))
.ssl(builder.build())
.service()
}
#[cfg(not(feature = "ssl"))]
{
Connector::new()
.timeout(time::Duration::from_millis(500))
.service()
}
};
Ok::<Client, ()>(Client::build().connector(connector).finish())
}))
.unwrap();
System::set_current(system);
TestServerRuntime { addr, rt, client }
}
/// Get firat available unused address
pub fn unused_addr() -> net::SocketAddr {
let addr: net::SocketAddr = "127.0.0.1:0".parse().unwrap();
let socket = TcpBuilder::new_v4().unwrap();
socket.bind(&addr).unwrap();
socket.reuse_address(true).unwrap();
let tcp = socket.to_tcp_listener().unwrap();
tcp.local_addr().unwrap()
}
}
impl TestServerRuntime {
/// Execute future on current core
pub fn block_on<F, I, E>(&mut self, fut: F) -> Result<I, E>
where
F: Future<Item = I, Error = E>,
{
self.rt.block_on(fut)
}
/// Execute function on current core
pub fn execute<F, R>(&mut self, fut: F) -> R
where
F: FnOnce() -> R,
{
self.rt.block_on(lazy(|| Ok::<_, ()>(fut()))).unwrap()
}
/// Construct test server url
pub fn addr(&self) -> net::SocketAddr {
self.addr
}
/// Construct test server url
pub fn url(&self, uri: &str) -> String {
if uri.starts_with('/') {
format!("http://127.0.0.1:{}{}", self.addr.port(), uri)
} else {
format!("http://127.0.0.1:{}/{}", self.addr.port(), uri)
}
}
/// Construct test https server url
pub fn surl(&self, uri: &str) -> String {
if uri.starts_with('/') {
format!("https://127.0.0.1:{}{}", self.addr.port(), uri)
} else {
format!("https://127.0.0.1:{}/{}", self.addr.port(), uri)
}
}
/// Create `GET` request
pub fn get(&self) -> ClientRequest {
self.client.get(self.url("/").as_str())
}
/// Create https `GET` request
pub fn sget(&self) -> ClientRequest {
self.client.get(self.surl("/").as_str())
}
/// Create `POST` request
pub fn post(&self) -> ClientRequest {
self.client.post(self.url("/").as_str())
}
/// Create https `POST` request
pub fn spost(&self) -> ClientRequest {
self.client.post(self.surl("/").as_str())
}
/// Create `HEAD` request
pub fn head(&self) -> ClientRequest {
self.client.head(self.url("/").as_str())
}
/// Create https `HEAD` request
pub fn shead(&self) -> ClientRequest {
self.client.head(self.surl("/").as_str())
}
/// Connect to test http server
pub fn request<S: AsRef<str>>(&self, method: Method, path: S) -> ClientRequest {
self.client.request(method, path.as_ref())
}
/// Stop http server
fn stop(&mut self) {
System::current().stop();
}
}
impl TestServerRuntime {
/// Connect to websocket server at a given path
pub fn ws_at(
&mut self,
path: &str,
) -> Result<Framed<impl AsyncRead + AsyncWrite, ws::Codec>, ws::ClientError> {
let url = self.url(path);
self.rt
.block_on(lazy(|| ws::Client::default().call(ws::Connect::new(url))))
}
/// Connect to a websocket server
pub fn ws(
&mut self,
) -> Result<Framed<impl AsyncRead + AsyncWrite, ws::Codec>, ws::ClientError> {
self.ws_at("/")
}
}
impl Drop for TestServerRuntime {
fn drop(&mut self) {
self.stop()
}
}

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-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----

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-----BEGIN PRIVATE KEY-----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-----END PRIVATE KEY-----

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ÂTÇÉVù2þvI ª\ÇRË™ˆæeÞ<04>vDØ:è—½¬RVÖYpíÿ;ÍÏGñùp!2÷CŒ. <0C>û®õpA !ûߦÙx j+Uc÷±©X”c%Û;ï"yì­AI

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use actix_service::NewService;
use bytes::{Bytes, BytesMut};
use futures::future::{self, ok};
use futures::{Future, Stream};
use actix_http::{
error::PayloadError, http, HttpMessage, HttpService, Request, Response,
};
use actix_http_test::TestServer;
const STR: &str = "Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World";
fn load_body<S>(stream: S) -> impl Future<Item = BytesMut, Error = PayloadError>
where
S: Stream<Item = Bytes, Error = PayloadError>,
{
stream.fold(BytesMut::new(), move |mut body, chunk| {
body.extend_from_slice(&chunk);
Ok::<_, PayloadError>(body)
})
}
#[test]
fn test_h1_v2() {
env_logger::init();
let mut srv = TestServer::new(move || {
HttpService::build()
.finish(|_| future::ok::<_, ()>(Response::Ok().body(STR)))
.map(|_| ())
});
let response = srv.block_on(srv.get().send()).unwrap();
assert!(response.status().is_success());
let request = srv.get().header("x-test", "111").send();
let mut response = srv.block_on(request).unwrap();
assert!(response.status().is_success());
// read response
let bytes = srv.block_on(load_body(response.take_payload())).unwrap();
assert_eq!(bytes, Bytes::from_static(STR.as_ref()));
let mut response = srv.block_on(srv.post().send()).unwrap();
assert!(response.status().is_success());
// read response
let bytes = srv.block_on(load_body(response.take_payload())).unwrap();
assert_eq!(bytes, Bytes::from_static(STR.as_ref()));
}
#[test]
fn test_connection_close() {
let mut srv = TestServer::new(move || {
HttpService::build()
.finish(|_| ok::<_, ()>(Response::Ok().body(STR)))
.map(|_| ())
});
let response = srv.block_on(srv.get().close_connection().send()).unwrap();
assert!(response.status().is_success());
}
#[test]
fn test_with_query_parameter() {
let mut srv = TestServer::new(move || {
HttpService::build()
.finish(|req: Request| {
if req.uri().query().unwrap().contains("qp=") {
ok::<_, ()>(Response::Ok().finish())
} else {
ok::<_, ()>(Response::BadRequest().finish())
}
})
.map(|_| ())
});
let request = srv.request(http::Method::GET, srv.url("/?qp=5")).send();
let response = srv.block_on(request).unwrap();
assert!(response.status().is_success());
}

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use std::io::{Read, Write};
use std::time::Duration;
use std::{net, thread};
use actix_codec::{AsyncRead, AsyncWrite};
use actix_http_test::TestServer;
use actix_server_config::ServerConfig;
use actix_service::{fn_cfg_factory, NewService};
use bytes::{Bytes, BytesMut};
use futures::future::{self, ok, Future};
use futures::stream::{once, Stream};
use actix_http::body::Body;
use actix_http::error::PayloadError;
use actix_http::{
body, error, http, http::header, Error, HttpMessage as HttpMessage2, HttpService,
KeepAlive, Request, Response,
};
fn load_body<S>(stream: S) -> impl Future<Item = BytesMut, Error = PayloadError>
where
S: Stream<Item = Bytes, Error = PayloadError>,
{
stream.fold(BytesMut::new(), move |mut body, chunk| {
body.extend_from_slice(&chunk);
Ok::<_, PayloadError>(body)
})
}
#[test]
fn test_h1() {
let mut srv = TestServer::new(|| {
HttpService::build()
.keep_alive(KeepAlive::Disabled)
.client_timeout(1000)
.client_disconnect(1000)
.h1(|_| future::ok::<_, ()>(Response::Ok().finish()))
});
let response = srv.block_on(srv.get().send()).unwrap();
assert!(response.status().is_success());
}
#[test]
fn test_h1_2() {
let mut srv = TestServer::new(|| {
HttpService::build()
.keep_alive(KeepAlive::Disabled)
.client_timeout(1000)
.client_disconnect(1000)
.finish(|req: Request| {
assert_eq!(req.version(), http::Version::HTTP_11);
future::ok::<_, ()>(Response::Ok().finish())
})
.map(|_| ())
});
let response = srv.block_on(srv.get().send()).unwrap();
assert!(response.status().is_success());
}
#[cfg(feature = "ssl")]
fn ssl_acceptor<T: AsyncRead + AsyncWrite>(
) -> std::io::Result<actix_server::ssl::OpensslAcceptor<T, ()>> {
use openssl::ssl::{SslAcceptor, SslFiletype, SslMethod};
// load ssl keys
let mut builder = SslAcceptor::mozilla_intermediate(SslMethod::tls()).unwrap();
builder
.set_private_key_file("tests/key.pem", SslFiletype::PEM)
.unwrap();
builder
.set_certificate_chain_file("tests/cert.pem")
.unwrap();
builder.set_alpn_select_callback(|_, protos| {
const H2: &[u8] = b"\x02h2";
if protos.windows(3).any(|window| window == H2) {
Ok(b"h2")
} else {
Err(openssl::ssl::AlpnError::NOACK)
}
});
builder.set_alpn_protos(b"\x02h2")?;
Ok(actix_server::ssl::OpensslAcceptor::new(builder.build()))
}
#[cfg(feature = "ssl")]
#[test]
fn test_h2() -> std::io::Result<()> {
let openssl = ssl_acceptor()?;
let mut srv = TestServer::new(move || {
openssl
.clone()
.map_err(|e| println!("Openssl error: {}", e))
.and_then(
HttpService::build()
.h2(|_| future::ok::<_, Error>(Response::Ok().finish()))
.map_err(|_| ()),
)
});
let response = srv.block_on(srv.sget().send()).unwrap();
assert!(response.status().is_success());
Ok(())
}
#[cfg(feature = "ssl")]
#[test]
fn test_h2_1() -> std::io::Result<()> {
let openssl = ssl_acceptor()?;
let mut srv = TestServer::new(move || {
openssl
.clone()
.map_err(|e| println!("Openssl error: {}", e))
.and_then(
HttpService::build()
.finish(|req: Request| {
assert_eq!(req.version(), http::Version::HTTP_2);
future::ok::<_, Error>(Response::Ok().finish())
})
.map_err(|_| ()),
)
});
let response = srv.block_on(srv.sget().send()).unwrap();
assert!(response.status().is_success());
Ok(())
}
#[cfg(feature = "ssl")]
#[test]
fn test_h2_body() -> std::io::Result<()> {
let data = "HELLOWORLD".to_owned().repeat(64 * 1024);
let openssl = ssl_acceptor()?;
let mut srv = TestServer::new(move || {
openssl
.clone()
.map_err(|e| println!("Openssl error: {}", e))
.and_then(
HttpService::build()
.h2(|mut req: Request<_>| {
load_body(req.take_payload())
.and_then(|body| Ok(Response::Ok().body(body)))
})
.map_err(|_| ()),
)
});
let mut response = srv.block_on(srv.sget().send_body(data.clone())).unwrap();
assert!(response.status().is_success());
let body = srv.block_on(load_body(response.take_payload())).unwrap();
assert_eq!(&body, data.as_bytes());
Ok(())
}
#[test]
fn test_slow_request() {
let srv = TestServer::new(|| {
HttpService::build()
.client_timeout(100)
.finish(|_| future::ok::<_, ()>(Response::Ok().finish()))
});
let mut stream = net::TcpStream::connect(srv.addr()).unwrap();
let _ = stream.write_all(b"GET /test/tests/test HTTP/1.1\r\n");
let mut data = String::new();
let _ = stream.read_to_string(&mut data);
assert!(data.starts_with("HTTP/1.1 408 Request Timeout"));
}
#[test]
fn test_http1_malformed_request() {
let srv = TestServer::new(|| {
HttpService::build().h1(|_| future::ok::<_, ()>(Response::Ok().finish()))
});
let mut stream = net::TcpStream::connect(srv.addr()).unwrap();
let _ = stream.write_all(b"GET /test/tests/test HTTP1.1\r\n");
let mut data = String::new();
let _ = stream.read_to_string(&mut data);
assert!(data.starts_with("HTTP/1.1 400 Bad Request"));
}
#[test]
fn test_http1_keepalive() {
let srv = TestServer::new(|| {
HttpService::build().h1(|_| future::ok::<_, ()>(Response::Ok().finish()))
});
let mut stream = net::TcpStream::connect(srv.addr()).unwrap();
let _ = stream.write_all(b"GET /test/tests/test HTTP/1.1\r\n\r\n");
let mut data = vec![0; 1024];
let _ = stream.read(&mut data);
assert_eq!(&data[..17], b"HTTP/1.1 200 OK\r\n");
let _ = stream.write_all(b"GET /test/tests/test HTTP/1.1\r\n\r\n");
let mut data = vec![0; 1024];
let _ = stream.read(&mut data);
assert_eq!(&data[..17], b"HTTP/1.1 200 OK\r\n");
}
#[test]
fn test_http1_keepalive_timeout() {
let srv = TestServer::new(|| {
HttpService::build()
.keep_alive(1)
.h1(|_| future::ok::<_, ()>(Response::Ok().finish()))
});
let mut stream = net::TcpStream::connect(srv.addr()).unwrap();
let _ = stream.write_all(b"GET /test/tests/test HTTP/1.1\r\n\r\n");
let mut data = vec![0; 1024];
let _ = stream.read(&mut data);
assert_eq!(&data[..17], b"HTTP/1.1 200 OK\r\n");
thread::sleep(Duration::from_millis(1100));
let mut data = vec![0; 1024];
let res = stream.read(&mut data).unwrap();
assert_eq!(res, 0);
}
#[test]
fn test_http1_keepalive_close() {
let srv = TestServer::new(|| {
HttpService::build().h1(|_| future::ok::<_, ()>(Response::Ok().finish()))
});
let mut stream = net::TcpStream::connect(srv.addr()).unwrap();
let _ =
stream.write_all(b"GET /test/tests/test HTTP/1.1\r\nconnection: close\r\n\r\n");
let mut data = vec![0; 1024];
let _ = stream.read(&mut data);
assert_eq!(&data[..17], b"HTTP/1.1 200 OK\r\n");
let mut data = vec![0; 1024];
let res = stream.read(&mut data).unwrap();
assert_eq!(res, 0);
}
#[test]
fn test_http10_keepalive_default_close() {
let srv = TestServer::new(|| {
HttpService::build().h1(|_| future::ok::<_, ()>(Response::Ok().finish()))
});
let mut stream = net::TcpStream::connect(srv.addr()).unwrap();
let _ = stream.write_all(b"GET /test/tests/test HTTP/1.0\r\n\r\n");
let mut data = vec![0; 1024];
let _ = stream.read(&mut data);
assert_eq!(&data[..17], b"HTTP/1.0 200 OK\r\n");
let mut data = vec![0; 1024];
let res = stream.read(&mut data).unwrap();
assert_eq!(res, 0);
}
#[test]
fn test_http10_keepalive() {
let srv = TestServer::new(|| {
HttpService::build().h1(|_| future::ok::<_, ()>(Response::Ok().finish()))
});
let mut stream = net::TcpStream::connect(srv.addr()).unwrap();
let _ = stream
.write_all(b"GET /test/tests/test HTTP/1.0\r\nconnection: keep-alive\r\n\r\n");
let mut data = vec![0; 1024];
let _ = stream.read(&mut data);
assert_eq!(&data[..17], b"HTTP/1.0 200 OK\r\n");
let mut stream = net::TcpStream::connect(srv.addr()).unwrap();
let _ = stream.write_all(b"GET /test/tests/test HTTP/1.0\r\n\r\n");
let mut data = vec![0; 1024];
let _ = stream.read(&mut data);
assert_eq!(&data[..17], b"HTTP/1.0 200 OK\r\n");
let mut data = vec![0; 1024];
let res = stream.read(&mut data).unwrap();
assert_eq!(res, 0);
}
#[test]
fn test_http1_keepalive_disabled() {
let srv = TestServer::new(|| {
HttpService::build()
.keep_alive(KeepAlive::Disabled)
.h1(|_| future::ok::<_, ()>(Response::Ok().finish()))
});
let mut stream = net::TcpStream::connect(srv.addr()).unwrap();
let _ = stream.write_all(b"GET /test/tests/test HTTP/1.1\r\n\r\n");
let mut data = vec![0; 1024];
let _ = stream.read(&mut data);
assert_eq!(&data[..17], b"HTTP/1.1 200 OK\r\n");
let mut data = vec![0; 1024];
let res = stream.read(&mut data).unwrap();
assert_eq!(res, 0);
}
#[test]
fn test_content_length() {
use actix_http::http::{
header::{HeaderName, HeaderValue},
StatusCode,
};
let mut srv = TestServer::new(|| {
HttpService::build().h1(|req: Request| {
let indx: usize = req.uri().path()[1..].parse().unwrap();
let statuses = [
StatusCode::NO_CONTENT,
StatusCode::CONTINUE,
StatusCode::SWITCHING_PROTOCOLS,
StatusCode::PROCESSING,
StatusCode::OK,
StatusCode::NOT_FOUND,
];
future::ok::<_, ()>(Response::new(statuses[indx]))
})
});
let header = HeaderName::from_static("content-length");
let value = HeaderValue::from_static("0");
{
for i in 0..4 {
let req = srv
.request(http::Method::GET, srv.url(&format!("/{}", i)))
.send();
let response = srv.block_on(req).unwrap();
assert_eq!(response.headers().get(&header), None);
let req = srv
.request(http::Method::HEAD, srv.url(&format!("/{}", i)))
.send();
let response = srv.block_on(req).unwrap();
assert_eq!(response.headers().get(&header), None);
}
for i in 4..6 {
let req = srv
.request(http::Method::GET, srv.url(&format!("/{}", i)))
.send();
let response = srv.block_on(req).unwrap();
assert_eq!(response.headers().get(&header), Some(&value));
}
}
}
#[test]
fn test_h2_content_length() {
use actix_http::http::{
header::{HeaderName, HeaderValue},
StatusCode,
};
let openssl = ssl_acceptor().unwrap();
let mut srv = TestServer::new(move || {
openssl
.clone()
.map_err(|e| println!("Openssl error: {}", e))
.and_then(
HttpService::build()
.h2(|req: Request| {
let indx: usize = req.uri().path()[1..].parse().unwrap();
let statuses = [
StatusCode::NO_CONTENT,
StatusCode::CONTINUE,
StatusCode::SWITCHING_PROTOCOLS,
StatusCode::PROCESSING,
StatusCode::OK,
StatusCode::NOT_FOUND,
];
future::ok::<_, ()>(Response::new(statuses[indx]))
})
.map_err(|_| ()),
)
});
let header = HeaderName::from_static("content-length");
let value = HeaderValue::from_static("0");
{
for i in 0..4 {
let req = srv
.request(http::Method::GET, srv.surl(&format!("/{}", i)))
.send();
let response = srv.block_on(req).unwrap();
assert_eq!(response.headers().get(&header), None);
let req = srv
.request(http::Method::HEAD, srv.surl(&format!("/{}", i)))
.send();
let response = srv.block_on(req).unwrap();
assert_eq!(response.headers().get(&header), None);
}
for i in 4..6 {
let req = srv
.request(http::Method::GET, srv.surl(&format!("/{}", i)))
.send();
let response = srv.block_on(req).unwrap();
assert_eq!(response.headers().get(&header), Some(&value));
}
}
}
#[test]
fn test_h1_headers() {
let data = STR.repeat(10);
let data2 = data.clone();
let mut srv = TestServer::new(move || {
let data = data.clone();
HttpService::build().h1(move |_| {
let mut builder = Response::Ok();
for idx in 0..90 {
builder.header(
format!("X-TEST-{}", idx).as_str(),
"TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST ",
);
}
future::ok::<_, ()>(builder.body(data.clone()))
})
});
let mut response = srv.block_on(srv.get().send()).unwrap();
assert!(response.status().is_success());
// read response
let bytes = srv.block_on(load_body(response.take_payload())).unwrap();
assert_eq!(bytes, Bytes::from(data2));
}
#[test]
fn test_h2_headers() {
let data = STR.repeat(10);
let data2 = data.clone();
let openssl = ssl_acceptor().unwrap();
let mut srv = TestServer::new(move || {
let data = data.clone();
openssl
.clone()
.map_err(|e| println!("Openssl error: {}", e))
.and_then(
HttpService::build().h2(move |_| {
let mut builder = Response::Ok();
for idx in 0..90 {
builder.header(
format!("X-TEST-{}", idx).as_str(),
"TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST \
TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST TEST ",
);
}
future::ok::<_, ()>(builder.body(data.clone()))
}).map_err(|_| ()))
});
let mut response = srv.block_on(srv.sget().send()).unwrap();
assert!(response.status().is_success());
// read response
let bytes = srv.block_on(load_body(response.take_payload())).unwrap();
assert_eq!(bytes, Bytes::from(data2));
}
const STR: &str = "Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World \
Hello World Hello World Hello World Hello World Hello World";
#[test]
fn test_h1_body() {
let mut srv = TestServer::new(|| {
HttpService::build().h1(|_| future::ok::<_, ()>(Response::Ok().body(STR)))
});
let mut response = srv.block_on(srv.get().send()).unwrap();
assert!(response.status().is_success());
// read response
let bytes = srv.block_on(load_body(response.take_payload())).unwrap();
assert_eq!(bytes, Bytes::from_static(STR.as_ref()));
}
#[test]
fn test_h2_body2() {
let openssl = ssl_acceptor().unwrap();
let mut srv = TestServer::new(move || {
openssl
.clone()
.map_err(|e| println!("Openssl error: {}", e))
.and_then(
HttpService::build()
.h2(|_| future::ok::<_, ()>(Response::Ok().body(STR)))
.map_err(|_| ()),
)
});
let mut response = srv.block_on(srv.sget().send()).unwrap();
assert!(response.status().is_success());
// read response
let bytes = srv.block_on(load_body(response.take_payload())).unwrap();
assert_eq!(bytes, Bytes::from_static(STR.as_ref()));
}
#[test]
fn test_h1_head_empty() {
let mut srv = TestServer::new(|| {
HttpService::build().h1(|_| ok::<_, ()>(Response::Ok().body(STR)))
});
let mut response = srv.block_on(srv.head().send()).unwrap();
assert!(response.status().is_success());
{
let len = response
.headers()
.get(http::header::CONTENT_LENGTH)
.unwrap();
assert_eq!(format!("{}", STR.len()), len.to_str().unwrap());
}
// read response
let bytes = srv.block_on(load_body(response.take_payload())).unwrap();
assert!(bytes.is_empty());
}
#[test]
fn test_h2_head_empty() {
let openssl = ssl_acceptor().unwrap();
let mut srv = TestServer::new(move || {
openssl
.clone()
.map_err(|e| println!("Openssl error: {}", e))
.and_then(
HttpService::build()
.finish(|_| ok::<_, ()>(Response::Ok().body(STR)))
.map_err(|_| ()),
)
});
let mut response = srv.block_on(srv.shead().send()).unwrap();
assert!(response.status().is_success());
assert_eq!(response.version(), http::Version::HTTP_2);
{
let len = response
.headers()
.get(http::header::CONTENT_LENGTH)
.unwrap();
assert_eq!(format!("{}", STR.len()), len.to_str().unwrap());
}
// read response
let bytes = srv.block_on(load_body(response.take_payload())).unwrap();
assert!(bytes.is_empty());
}
#[test]
fn test_h1_head_binary() {
let mut srv = TestServer::new(|| {
HttpService::build().h1(|_| {
ok::<_, ()>(Response::Ok().content_length(STR.len() as u64).body(STR))
})
});
let mut response = srv.block_on(srv.head().send()).unwrap();
assert!(response.status().is_success());
{
let len = response
.headers()
.get(http::header::CONTENT_LENGTH)
.unwrap();
assert_eq!(format!("{}", STR.len()), len.to_str().unwrap());
}
// read response
let bytes = srv.block_on(load_body(response.take_payload())).unwrap();
assert!(bytes.is_empty());
}
#[test]
fn test_h2_head_binary() {
let openssl = ssl_acceptor().unwrap();
let mut srv = TestServer::new(move || {
openssl
.clone()
.map_err(|e| println!("Openssl error: {}", e))
.and_then(
HttpService::build()
.h2(|_| {
ok::<_, ()>(
Response::Ok().content_length(STR.len() as u64).body(STR),
)
})
.map_err(|_| ()),
)
});
let mut response = srv.block_on(srv.shead().send()).unwrap();
assert!(response.status().is_success());
{
let len = response
.headers()
.get(http::header::CONTENT_LENGTH)
.unwrap();
assert_eq!(format!("{}", STR.len()), len.to_str().unwrap());
}
// read response
let bytes = srv.block_on(load_body(response.take_payload())).unwrap();
assert!(bytes.is_empty());
}
#[test]
fn test_h1_head_binary2() {
let mut srv = TestServer::new(|| {
HttpService::build().h1(|_| ok::<_, ()>(Response::Ok().body(STR)))
});
let response = srv.block_on(srv.head().send()).unwrap();
assert!(response.status().is_success());
{
let len = response
.headers()
.get(http::header::CONTENT_LENGTH)
.unwrap();
assert_eq!(format!("{}", STR.len()), len.to_str().unwrap());
}
}
#[test]
fn test_h2_head_binary2() {
let openssl = ssl_acceptor().unwrap();
let mut srv = TestServer::new(move || {
openssl
.clone()
.map_err(|e| println!("Openssl error: {}", e))
.and_then(
HttpService::build()
.h2(|_| ok::<_, ()>(Response::Ok().body(STR)))
.map_err(|_| ()),
)
});
let response = srv.block_on(srv.shead().send()).unwrap();
assert!(response.status().is_success());
{
let len = response
.headers()
.get(http::header::CONTENT_LENGTH)
.unwrap();
assert_eq!(format!("{}", STR.len()), len.to_str().unwrap());
}
}
#[test]
fn test_h1_body_length() {
let mut srv = TestServer::new(|| {
HttpService::build().h1(|_| {
let body = once(Ok(Bytes::from_static(STR.as_ref())));
ok::<_, ()>(
Response::Ok()
.body(Body::from_message(body::SizedStream::new(STR.len(), body))),
)
})
});
let mut response = srv.block_on(srv.get().send()).unwrap();
assert!(response.status().is_success());
// read response
let bytes = srv.block_on(load_body(response.take_payload())).unwrap();
assert_eq!(bytes, Bytes::from_static(STR.as_ref()));
}
#[test]
fn test_h2_body_length() {
let openssl = ssl_acceptor().unwrap();
let mut srv = TestServer::new(move || {
openssl
.clone()
.map_err(|e| println!("Openssl error: {}", e))
.and_then(
HttpService::build()
.h2(|_| {
let body = once(Ok(Bytes::from_static(STR.as_ref())));
ok::<_, ()>(Response::Ok().body(Body::from_message(
body::SizedStream::new(STR.len(), body),
)))
})
.map_err(|_| ()),
)
});
let mut response = srv.block_on(srv.sget().send()).unwrap();
assert!(response.status().is_success());
// read response
let bytes = srv.block_on(load_body(response.take_payload())).unwrap();
assert_eq!(bytes, Bytes::from_static(STR.as_ref()));
}
#[test]
fn test_h1_body_chunked_explicit() {
let mut srv = TestServer::new(|| {
HttpService::build().h1(|_| {
let body = once::<_, Error>(Ok(Bytes::from_static(STR.as_ref())));
ok::<_, ()>(
Response::Ok()
.header(header::TRANSFER_ENCODING, "chunked")
.streaming(body),
)
})
});
let mut response = srv.block_on(srv.get().send()).unwrap();
assert!(response.status().is_success());
assert_eq!(
response
.headers()
.get(header::TRANSFER_ENCODING)
.unwrap()
.to_str()
.unwrap(),
"chunked"
);
// read response
let bytes = srv.block_on(load_body(response.take_payload())).unwrap();
// decode
assert_eq!(bytes, Bytes::from_static(STR.as_ref()));
}
#[test]
fn test_h2_body_chunked_explicit() {
let openssl = ssl_acceptor().unwrap();
let mut srv = TestServer::new(move || {
openssl
.clone()
.map_err(|e| println!("Openssl error: {}", e))
.and_then(
HttpService::build()
.h2(|_| {
let body =
once::<_, Error>(Ok(Bytes::from_static(STR.as_ref())));
ok::<_, ()>(
Response::Ok()
.header(header::TRANSFER_ENCODING, "chunked")
.streaming(body),
)
})
.map_err(|_| ()),
)
});
let mut response = srv.block_on(srv.sget().send()).unwrap();
assert!(response.status().is_success());
assert!(!response.headers().contains_key(header::TRANSFER_ENCODING));
// read response
let bytes = srv.block_on(load_body(response.take_payload())).unwrap();
// decode
assert_eq!(bytes, Bytes::from_static(STR.as_ref()));
}
#[test]
fn test_h1_body_chunked_implicit() {
let mut srv = TestServer::new(|| {
HttpService::build().h1(|_| {
let body = once::<_, Error>(Ok(Bytes::from_static(STR.as_ref())));
ok::<_, ()>(Response::Ok().streaming(body))
})
});
let mut response = srv.block_on(srv.get().send()).unwrap();
assert!(response.status().is_success());
assert_eq!(
response
.headers()
.get(header::TRANSFER_ENCODING)
.unwrap()
.to_str()
.unwrap(),
"chunked"
);
// read response
let bytes = srv.block_on(load_body(response.take_payload())).unwrap();
assert_eq!(bytes, Bytes::from_static(STR.as_ref()));
}
#[test]
fn test_h1_response_http_error_handling() {
let mut srv = TestServer::new(|| {
HttpService::build().h1(fn_cfg_factory(|_: &ServerConfig| {
Ok::<_, ()>(|_| {
let broken_header = Bytes::from_static(b"\0\0\0");
ok::<_, ()>(
Response::Ok()
.header(http::header::CONTENT_TYPE, broken_header)
.body(STR),
)
})
}))
});
let mut response = srv.block_on(srv.get().send()).unwrap();
assert_eq!(response.status(), http::StatusCode::INTERNAL_SERVER_ERROR);
// read response
let bytes = srv.block_on(load_body(response.take_payload())).unwrap();
assert!(bytes.is_empty());
}
#[test]
fn test_h2_response_http_error_handling() {
let openssl = ssl_acceptor().unwrap();
let mut srv = TestServer::new(move || {
openssl
.clone()
.map_err(|e| println!("Openssl error: {}", e))
.and_then(
HttpService::build()
.h2(fn_cfg_factory(|_: &ServerConfig| {
Ok::<_, ()>(|_| {
let broken_header = Bytes::from_static(b"\0\0\0");
ok::<_, ()>(
Response::Ok()
.header(http::header::CONTENT_TYPE, broken_header)
.body(STR),
)
})
}))
.map_err(|_| ()),
)
});
let mut response = srv.block_on(srv.sget().send()).unwrap();
assert_eq!(response.status(), http::StatusCode::INTERNAL_SERVER_ERROR);
// read response
let bytes = srv.block_on(load_body(response.take_payload())).unwrap();
assert!(bytes.is_empty());
}
#[test]
fn test_h1_service_error() {
let mut srv = TestServer::new(|| {
HttpService::build()
.h1(|_| Err::<Response, Error>(error::ErrorBadRequest("error")))
});
let mut response = srv.block_on(srv.get().send()).unwrap();
assert_eq!(response.status(), http::StatusCode::INTERNAL_SERVER_ERROR);
// read response
let bytes = srv.block_on(load_body(response.take_payload())).unwrap();
assert!(bytes.is_empty());
}
#[test]
fn test_h2_service_error() {
let openssl = ssl_acceptor().unwrap();
let mut srv = TestServer::new(move || {
openssl
.clone()
.map_err(|e| println!("Openssl error: {}", e))
.and_then(
HttpService::build()
.h2(|_| Err::<Response, Error>(error::ErrorBadRequest("error")))
.map_err(|_| ()),
)
});
let mut response = srv.block_on(srv.sget().send()).unwrap();
assert_eq!(response.status(), http::StatusCode::INTERNAL_SERVER_ERROR);
// read response
let bytes = srv.block_on(load_body(response.take_payload())).unwrap();
assert!(bytes.is_empty());
}

110
actix-http/tests/test_ws.rs Normal file
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@ -0,0 +1,110 @@
use std::io;
use actix_codec::Framed;
use actix_http_test::TestServer;
use actix_server::Io;
use actix_service::{fn_service, NewService};
use actix_utils::framed::IntoFramed;
use actix_utils::stream::TakeItem;
use bytes::{Bytes, BytesMut};
use futures::future::{ok, Either};
use futures::{Future, Sink, Stream};
use tokio_tcp::TcpStream;
use actix_http::{h1, ws, ResponseError, SendResponse, ServiceConfig};
fn ws_service(req: ws::Frame) -> impl Future<Item = ws::Message, Error = io::Error> {
match req {
ws::Frame::Ping(msg) => ok(ws::Message::Pong(msg)),
ws::Frame::Text(text) => {
let text = if let Some(pl) = text {
String::from_utf8(Vec::from(pl.as_ref())).unwrap()
} else {
String::new()
};
ok(ws::Message::Text(text))
}
ws::Frame::Binary(bin) => ok(ws::Message::Binary(
bin.map(|e| e.freeze())
.unwrap_or_else(|| Bytes::from(""))
.into(),
)),
ws::Frame::Close(reason) => ok(ws::Message::Close(reason)),
_ => ok(ws::Message::Close(None)),
}
}
#[test]
fn test_simple() {
let mut srv = TestServer::new(|| {
fn_service(|io: Io<TcpStream>| Ok(io.into_parts().0))
.and_then(IntoFramed::new(|| h1::Codec::new(ServiceConfig::default())))
.and_then(TakeItem::new().map_err(|_| ()))
.and_then(|(req, framed): (_, Framed<_, _>)| {
// validate request
if let Some(h1::Message::Item(req)) = req {
match ws::verify_handshake(&req) {
Err(e) => {
// validation failed
Either::A(
SendResponse::send(framed, e.error_response())
.map_err(|_| ())
.map(|_| ()),
)
}
Ok(_) => {
Either::B(
// send handshake response
SendResponse::send(
framed,
ws::handshake_response(&req).finish(),
)
.map_err(|_| ())
.and_then(|framed| {
// start websocket service
let framed = framed.into_framed(ws::Codec::new());
ws::Transport::with(framed, ws_service)
.map_err(|_| ())
}),
)
}
}
} else {
panic!()
}
})
});
// client service
let framed = srv.ws().unwrap();
let framed = srv
.block_on(framed.send(ws::Message::Text("text".to_string())))
.unwrap();
let (item, framed) = srv.block_on(framed.into_future()).map_err(|_| ()).unwrap();
assert_eq!(item, Some(ws::Frame::Text(Some(BytesMut::from("text")))));
let framed = srv
.block_on(framed.send(ws::Message::Binary("text".into())))
.unwrap();
let (item, framed) = srv.block_on(framed.into_future()).map_err(|_| ()).unwrap();
assert_eq!(
item,
Some(ws::Frame::Binary(Some(Bytes::from_static(b"text").into())))
);
let framed = srv
.block_on(framed.send(ws::Message::Ping("text".into())))
.unwrap();
let (item, framed) = srv.block_on(framed.into_future()).map_err(|_| ()).unwrap();
assert_eq!(item, Some(ws::Frame::Pong("text".to_string().into())));
let framed = srv
.block_on(framed.send(ws::Message::Close(Some(ws::CloseCode::Normal.into()))))
.unwrap();
let (item, _framed) = srv.block_on(framed.into_future()).map_err(|_| ()).unwrap();
assert_eq!(
item,
Some(ws::Frame::Close(Some(ws::CloseCode::Normal.into())))
);
}