# redis-rs [![Build Status](https://travis-ci.org/mitsuhiko/redis-rs.svg?branch=master)](https://travis-ci.org/mitsuhiko/redis-rs) [![crates.io](https://img.shields.io/crates/v/redis.svg)](https://crates.io/crates/redis) Redis-rs is a high level redis library for Rust. It provides convenient access to all Redis functionality through a very flexible but low-level API. It uses a customizable type conversion trait so that any operation can return results in just the type you are expecting. This makes for a very pleasant development experience. The crate is called `redis` and you can depend on it via cargo: ```ini [dependencies] mco-redis-rs = "0.21.5" ``` Documentation on the library can be found at [docs.rs/redis](https://docs.rs/redis). **Note: redis-rs requires at least Rust 1.39.** ## Basic Operation To open a connection you need to create a client and then to fetch a connection from it. In the future there will be a connection pool for those, currently each connection is separate and not pooled. Many commands are implemented through the `Commands` trait but manual command creation is also possible. ```rust extern crate mco_redis_rs as redis; use redis::Commands; fn fetch_an_integer() -> redis::RedisResult { // connect to redis let client = redis::Client::open("redis://127.0.0.1/")?; let mut con = client.get_connection()?; // throw away the result, just make sure it does not fail let _ : () = con.set("my_key", 42)?; // read back the key and return it. Because the return value // from the function is a result for integer this will automatically // convert into one. con.get("my_key") } ``` ## Async support To enable asynchronous clients a feature for the underlying feature need to be activated. ``` # if you use tokio mco-redis-rs = { version = "0.17.0", features = ["tokio-comp"] } # if you use async-std mco-redis-rs = { version = "0.17.0", features = ["async-std-comp"] } ``` ## TLS Support To enable TLS support, you need to use the relevant feature entry in your Cargo.toml. ``` mco-redis-rs = { version = "0.19.0", features = ["tls"] } # if you use tokio mco-redis-rs = { version = "0.19.0", features = ["tokio-native-tls-comp"] } # if you use async-std mco-redis-rs = { version = "0.19.0", features = ["async-std-tls-comp"] } ``` then you should be able to connect to a redis instance using the `rediss://` URL scheme: ```rust let client = redis::Client::open("rediss://127.0.0.1/")?; ``` ## Cluster Support Cluster mode can be used by specifying "cluster" as a features entry in your Cargo.toml. `mco-redis-rs = { version = "0.17.0", features = [ "cluster"] }` Then you can simply use the `ClusterClient` which accepts a list of available nodes. ```rust use redis::cluster::ClusterClient; use redis::Commands; fn fetch_an_integer() -> String { // connect to redis let nodes = vec!["redis://127.0.0.1/"]; let client = ClusterClient::open(nodes).unwrap(); let mut connection = client.get_connection().unwrap(); let _: () = connection.set("test", "test_data").unwrap(); let rv: String = connection.get("test").unwrap(); return rv; } ``` ## Development If you want to develop on the library there are a few commands provided by the makefile: To build: $ make To test: $ make test To run benchmarks: $ make bench To build the docs (require nightly compiler, see [rust-lang/rust#43781](https://github.com/rust-lang/rust/issues/43781)): $ make docs We encourage you to run `clippy` prior to seeking a merge for your work. The lints can be quite strict. Running this on your own workstation can save you time, since Travis CI will fail any build that doesn't satisfy `clippy`: $ cargo clippy --all-features --all --tests --examples -- -D clippy::all -D warnings To run fuzz tests with afl, first install cargo-afl (`cargo install -f afl`), then run: $ make fuzz If the fuzzer finds a crash, in order to reproduce it, run: $ cd afl// $ cargo run --bin reproduce -- out/crashes/