Webdav
(RFC4918) is defined as
HTTP (GET/HEAD/PUT/DELETE) plus a bunch of extension methods (PROPFIND, etc).
These extension methods are used to manage collections (like unix directories),
get information on collections (like unix ls
or readdir
), rename and
copy items, lock/unlock items, etc.
A handler
is a piece of code that takes a http::Request
, processes it in some
way, and then generates a http::Response
. This library is a handler
that maps
the HTTP/Webdav protocol to the filesystem. Or actually, "a" filesystem. Included
is an adapter for the local filesystem (localfs
), and an adapter for an
in-memory filesystem (memfs
).
So this library can be used as a handler with HTTP servers like hyper, warp, actix-web, etc. Either as a correct and complete HTTP handler for files (GET/HEAD) or as a handler for the entire Webdav protocol. In the latter case, you can mount it as a remote filesystem: Linux, Windows, macOS can all mount Webdav filesystems.
The backend interfaces are similar to the ones from the Go x/net/webdav package
:
- the library contains a HTTP handler.
- you supply a filesystem for backend storage, which can optionally implement reading/writing DAV properties.
- you can supply a locksystem that handles webdav locks.
The handler in this library works with the standard http types
from the http
and http_body
crates. That means that you can use it
straight away with http libraries / frameworks that also work with
those types, like hyper. Compatibility modules for actix-web
and warp are also provided.
Currently passes the "basic", "copymove", "props", "locks" and "http" checks of the Webdav Litmus Test testsuite. That's all of the base RFC4918 webdav specification.
The litmus test suite also has tests for RFC3744 "acl" and "principal", RFC5842 "bind", and RFC3253 "versioning". Those we do not support right now.
The relevant parts of the HTTP RFCs are also implemented, such as the preconditions (If-Match, If-None-Match, If-Modified-Since, If-Unmodified-Since, If-Range), partial transfers (Range).
Also implemented is partial PUT
, for which there are currently two
non-standard ways to do it: PUT
with the Content-Range
header,
which is what Apache's mod_dav
implements, and PATCH
with the X-Update-Range
header from SabreDav
.
Included are two filesystems:
LocalFs
: serves a directory on the local filesystemMemFs
: ephemeral in-memory filesystem. supports DAV properties.
Also included are two locksystems:
MemLs
: ephemeral in-memory locksystem.FakeLs
: fake locksystem. just enough LOCK/UNLOCK support for macOS/Windows.
Example server using hyper that serves the /tmp directory in r/w mode. You should be able to mount this network share from Linux, macOS and Windows. Examples for other frameworks are also available.
use std::convert::Infallible;
use webdav_handler::{fakels::FakeLs, localfs::LocalFs, DavHandler};
#[tokio::main]
async fn main() {
let dir = "/tmp";
let addr = ([127, 0, 0, 1], 4918).into();
let dav_server = DavHandler::builder()
.filesystem(LocalFs::new(dir, false, false, false))
.locksystem(FakeLs::new())
.build_handler();
let make_service = hyper::service::make_service_fn(move |_| {
let dav_server = dav_server.clone();
async move {
let func = move |req| {
let dav_server = dav_server.clone();
async move {
Ok::<_, Infallible>(dav_server.handle(req).await)
}
};
Ok::<_, Infallible>(hyper::service::service_fn(func))
}
});
println!("Serving {} on {}", dir, addr);
let _ = hyper::Server::bind(&addr)
.serve(make_service)
.await
.map_err(|e| eprintln!("server error: {}", e));
}
This crate uses std::future::Future and async/await, so it only works with Rust 1.39 and up.
RUST_LOG=webdav_handler=debug cargo run --example sample-litmus-server
This will start a server on port 4918, serving an in-memory filesystem.
For other options, run cargo run --example sample-litmus-server -- --help
- © 2018, 2019, 2020 XS4ALL Internet bv
- © 2018, 2019, 2020 Miquel van Smoorenburg
- Apache License, Version 2.0