This is a rust implementation of Oblivious HTTP and the supporting Binary HTTP Messages.
The ohttp
crate uses either hpke or
NSS for
cryptographic primitives.
The API documentation is currently sparse, but the API is fairly small and descriptive.
The bhttp
crate has the following features:
-
read-bhttp
enables parsing of binary HTTP messages. This is enabled by default. -
write-bhttp
enables writing of binary HTTP messages. This is enabled by default. -
read-http
enables a simple HTTP/1.1 message parser. This parser is fairly basic and is not recommended for production use. Getting an HTTP/1.1 parser right is a massive enterprise; this one only does the basics. This is disabled by default. -
write-http
enables writing of HTTP/1.1 messages. This is disabled by default.
The ohttp
crate has the following features:
-
client
enables the client-side processing of oblivious HTTP messages: encrypting requests and decrypting responses. This is enabled by default. -
server
enables the server-side processing of oblivious HTTP messages: decrypting requests and encrypting responses. This is enabled by default. -
rust-hpke
selects the hpke crate for HPKE encryption. This is enabled by default and cannot be enabled at the same time asnss
. -
nss
selects NSS. This is disabled by default and cannot be enabled at the same time asrust-hpke
.
The bhttp-convert
provides a utility that can convert between the HTTP/1.1
message format (message/http
) and the proposed binary format
(message/bhttp
).
For example, to view the binary format:
cargo run --bin bhttp-convert < ./examples/request.txt | xxd
Or, to convert to binary and back again:
cargo run --bin bhttp-convert < ./examples/response.txt | \
cargo run --bin bhttp-convert -- -d
Sample client and server implementations can be found in ohttp-client
and
ohttp-server
respectively. The server acts as both an Oblivious Gateway
Resource and a Target Resource. You will need to provide your own relay.
Though a direct request to the server will demonstrate that things are working,
the server sees your IP address.
The build setup is a little tricky, mostly because building NSS is a bit fiddly.
First, you need a machine capable of building NSS. For those on Ubuntu/Debian, the minimal set of prerequisites for an x64 build (and the later steps) can be installed using:
sudo apt-get install \
ca-certificates coreutils curl git make mercurial \
build-essential clang llvm libclang-dev lld \
gyp ninja-build pkg-config zlib1g-dev
You then need to clone this repository, the NSS repository, and the NSPR repository. I generally put them all in the same place.
cd $workspace
git clone https://github.com/martinthomson/ohttp ./ohttp
git clone https://github.com/nss-dev/nss ./nss
# or
# hg clone https://hg.mozilla.org/projects/nss ./nss
hg clone https://hg.mozilla.org/projects/nspr ./nspr
The build then needs to be told about where to find NSS. The runtime also needs to be told where to find NSS libraries. This helps avoid linking with any NSS version you might have installed in the OS, which won't work (yet).
export NSS_DIR=$workspace/nss
export LD_LIBRARY_PATH=$workspace/dist/Debug/lib
You might need to tweak this. On a Mac, use DYLD_LIBRARY_PATH
instead of
LD_LIBRARY_PATH
. And if you are building with --release
, the path includes
"Release" rather than "Debug".
Then you should be able to build and run tests:
cd $workspace
cargo build
cargo test
Contributions are welcome provided you are respectful of others in your interactions.
Continuous integration runs all tests plus cargo fmt -- --check
and cargo clippy --tests
.
There is a pre-commit script that you can link to .git/hooks/pre-commit
that
runs cargo fmt
on all commits. Just run ./pre-commit install
to have it
install itself.
ohttp
and bhttp
should compile on Rust 1.63.0.