A peer-to-peer append-only B-tree built on Hypercore. Compatible with the JavaScript version.
$ cargo add hyperbee
From the examples:
use hyperbee::Hyperbee;
#[tokio::main]
async fn main() -> Result<(), Box<dyn std::error::Error>> {
let hb = Hyperbee::from_ram().await?;
// Insert "world" with key "hello"
hb.put(b"hello", Some(b"world")).await?;
// Get the value for key "hello"
let Some((_seq, Some(val))) = hb.get(b"hello").await? else {
panic!("could not get value");
};
assert_eq!(val, b"world");
// Trying to get a non-exsitant key returns `None`
let res = hb.get(b"no key here").await?;
assert_eq!(res, None);
// Deleting a key returns `true` if it was present
let res = hb.del(b"hello").await?;
assert!(res.is_some());
// Getting deleted key returns `None`
let res = hb.get(b"hello").await?;
assert_eq!(res, None);
Ok(())
}
We use UniFFI to generate libraries for other languages. To build the library for python run:
cargo build -F ffi && cargo run -F ffi --bin uniffi-bindgen generate --library target/debug/libhyperbee.so --language python --out-dir out
This generates a file out/hyperbee.py
, which an be used. This file requires that libhyperbee.so
be present alongside the .py
file.
Distributable python packages are still a work-in-progress. Currently only Python is tested. See the tests for example usage.
- full functional interoperability with JS Hyperbee files
- read, write, and delete operations
- in-order key streaming like JS's
createReadStream
- support
gt
,lt
, etc bounds for key streaming - accept compare-and-swap for
put
anddel
. - support prefixed key operations like JS's
sub
- one-to-one binary output #23
- Build FFI wrappers
- improved wire format
- configurable tree parameters
Running the tests requires protoc
and GNU Make be installed.
Each significant pull request should include an update the CHANGELOG.md
Releases are mostly handled with cargo release
.
After each Rust release. We manually release a new python package. Building the python package is done with maturin
and it is released with twine
.
# create a virtualenv with the tools we need
python -m venv venv && . venv/bin/activate
pip install --upgrade twine maturin
# build the wheels
python -m maturin build --release
# Upload the wheels to pypi. This uses my api token from ~/.pypirc
python -m twine upload target/wheels/hyperbeepy-<target>.whl