Crate bonsaidb::keystorage::s3::http
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A general purpose library of common HTTP types
This crate is a general purpose library for common types found when working
with the HTTP protocol. You’ll find Request
and Response
types for
working as either a client or a server as well as all of their components.
Notably you’ll find Uri
for what a Request
is requesting, a Method
for how it’s being requested, a StatusCode
for what sort of response came
back, a Version
for how this was communicated, and
HeaderName
/HeaderValue
definitions to get grouped in a HeaderMap
to
work with request/response headers.
You will notably not find an implementation of sending requests or
spinning up a server in this crate. It’s intended that this crate is the
“standard library” for HTTP clients and servers without dictating any
particular implementation. Note that this crate is still early on in its
lifecycle so the support libraries that integrate with the http
crate are
a work in progress! Stay tuned and we’ll be sure to highlight crates here
in the future.
Requests and Responses
Perhaps the main two types in this crate are the Request
and Response
types. A Request
could either be constructed to get sent off as a client
or it can also be received to generate a Response
for a server. Similarly
as a client a Response
is what you get after sending a Request
, whereas
on a server you’ll be manufacturing a Response
to send back to the client.
Each type has a number of accessors for the component fields. For as a server you might want to inspect a requests URI to dispatch it:
use http::{Request, Response};
fn response(req: Request<()>) -> http::Result<Response<()>> {
match req.uri().path() {
"/" => index(req),
"/foo" => foo(req),
"/bar" => bar(req),
_ => not_found(req),
}
}
On a Request
you’ll also find accessors like method
to return a
Method
and headers
to inspect the various headers. A Response
has similar methods for headers, the status code, etc.
In addition to getters, request/response types also have mutable accessors to edit the request/response:
use http::{HeaderValue, Response, StatusCode};
use http::header::CONTENT_TYPE;
fn add_server_headers<T>(response: &mut Response<T>) {
response.headers_mut()
.insert(CONTENT_TYPE, HeaderValue::from_static("text/html"));
*response.status_mut() = StatusCode::OK;
}
And finally, one of the most important aspects of requests/responses, the
body! The Request
and Response
types in this crate are generic in
what their body is. This allows downstream libraries to use different
representations such as Request<Vec<u8>>
, Response<impl Read>
,
Request<impl Stream<Item = Vec<u8>, Error = _>>
, or even
Response<MyCustomType>
where the custom type was deserialized from JSON.
The body representation is intentionally flexible to give downstream libraries maximal flexibility in implementing the body as appropriate.
HTTP Headers
Another major piece of functionality in this library is HTTP header
interpretation and generation. The HeaderName
type serves as a way to
define header names, or what’s to the left of the colon. A HeaderValue
conversely is the header value, or what’s to the right of a colon.
For example, if you have an HTTP request that looks like:
GET /foo HTTP/1.1
Accept: text/html
Then "Accept"
is a HeaderName
while "text/html"
is a HeaderValue
.
Each of these is a dedicated type to allow for a number of interesting
optimizations and to also encode the static guarantees of each type. For
example a HeaderName
is always a valid &str
, but a HeaderValue
may
not be valid UTF-8.
The most common header names are already defined for you as constant values
in the header
module of this crate. For example:
use http::header::{self, HeaderName};
let name: HeaderName = header::ACCEPT;
assert_eq!(name.as_str(), "accept");
You can, however, also parse header names from strings:
use http::header::{self, HeaderName};
let name = "Accept".parse::<HeaderName>().unwrap();
assert_eq!(name, header::ACCEPT);
Header values can be created from string literals through the from_static
function:
use http::HeaderValue;
let value = HeaderValue::from_static("text/html");
assert_eq!(value.as_bytes(), b"text/html");
And header values can also be parsed like names:
use http::HeaderValue;
let value = "text/html";
let value = value.parse::<HeaderValue>().unwrap();
Most HTTP requests and responses tend to come with more than one header, so
it’s not too useful to just work with names and values only! This crate also
provides a HeaderMap
type which is a specialized hash map for keys as
HeaderName
and generic values. This type, like header names, is optimized
for common usage but should continue to scale with your needs over time.
URIs
Each HTTP Request
has an associated URI with it. This may just be a path
like /index.html
but it could also be an absolute URL such as
https://www.rust-lang.org/index.html
. A URI
has a number of accessors to
interpret it:
use http::Uri;
use http::uri::Scheme;
let uri = "https://www.rust-lang.org/index.html".parse::<Uri>().unwrap();
assert_eq!(uri.scheme(), Some(&Scheme::HTTPS));
assert_eq!(uri.host(), Some("www.rust-lang.org"));
assert_eq!(uri.path(), "/index.html");
assert_eq!(uri.query(), None);
Modules
- HTTP header types
- The HTTP request method
- HTTP request types.
- HTTP response types.
- HTTP status codes
- URI component of request and response lines
- HTTP version
Structs
- A generic “error” for HTTP connections
- A type map of protocol extensions.
- A set of HTTP headers
- Represents an HTTP header field name
- Represents an HTTP header field value.
- The Request Method (VERB)
- Represents an HTTP request.
- Represents an HTTP response
- An HTTP status code (
status-code
in RFC 7230 et al.). - The URI component of a request.
- Represents a version of the HTTP spec.
Type Aliases
- A
Result
typedef to use with thehttp::Error
type