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:
[dependencies]
redis = "0.25.2"Documentation on the library can be found at docs.rs/redis.
Note: redis-rs requires at least Rust 1.60.
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.
use redis::Commands;
fn fetch_an_integer() -> redis::RedisResult<isize> {
// connect to redis
let client = redis::Client::open("redis://127.0.0.1/")?;
let mut con = client.get_connection(None)?;
// 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")
}Variables are converted to and from the Redis format for a wide variety of types
(String, num types, tuples, Vec<u8>). If you want to use it with your own types,
you can implement the FromRedisValue and ToRedisArgs traits, or derive it with the
redis-macros crate.
To enable asynchronous clients, enable the relevant feature in your Cargo.toml,
tokio-comp for tokio users or async-std-comp for async-std users.
# if you use tokio
redis = { version = "0.25.2", features = ["tokio-comp"] }
# if you use async-std
redis = { version = "0.25.2", features = ["async-std-comp"] }
To enable TLS support, you need to use the relevant feature entry in your Cargo.toml.
Currently, native-tls and rustls are supported.
To use native-tls:
redis = { version = "0.25.2", features = ["tls-native-tls"] }
# if you use tokio
redis = { version = "0.25.2", features = ["tokio-native-tls-comp"] }
# if you use async-std
redis = { version = "0.25.2", features = ["async-std-native-tls-comp"] }
To use rustls:
redis = { version = "0.25.2", features = ["tls-rustls"] }
# if you use tokio
redis = { version = "0.25.2", features = ["tokio-rustls-comp"] }
# if you use async-std
redis = { version = "0.25.2", features = ["async-std-rustls-comp"] }
With rustls, you can add the following feature flags on top of other feature flags to enable additional features:
tls-rustls-insecure: Allow insecure TLS connectionstls-rustls-webpki-roots: Usewebpki-roots(Mozilla's root certificates) instead of native root certificates
then you should be able to connect to a redis instance using the rediss:// URL scheme:
let client = redis::Client::open("rediss://127.0.0.1/")?;To enable insecure mode, append #insecure at the end of the URL:
let client = redis::Client::open("rediss://127.0.0.1/#insecure")?;Deprecation Notice: If you were using the tls or async-std-tls-comp features, please use the tls-native-tls or async-std-native-tls-comp features respectively.
Support for Redis Cluster can be enabled by enabling the cluster feature in your Cargo.toml:
redis = { version = "0.25.2", features = [ "cluster"] }
Then you can simply use the ClusterClient, which accepts a list of available nodes. Note
that only one node in the cluster needs to be specified when instantiating the client, though
you can specify multiple.
use redis::cluster::ClusterClient;
use redis::Commands;
fn fetch_an_integer() -> String {
let nodes = vec!["redis://127.0.0.1/"];
let client = ClusterClient::new(nodes).unwrap();
let mut connection = client.get_connection(None).unwrap();
let _: () = connection.set("test", "test_data").unwrap();
let rv: String = connection.get("test").unwrap();
return rv;
}Async Redis Cluster support can be enabled by enabling the cluster-async feature, along
with your preferred async runtime, e.g.:
redis = { version = "0.25.2", features = [ "cluster-async", "tokio-std-comp" ] }
use redis::cluster::ClusterClient;
use redis::AsyncCommands;
async fn fetch_an_integer() -> String {
let nodes = vec!["redis://127.0.0.1/"];
let client = ClusterClient::new(nodes).unwrap();
let mut connection = client.get_async_connection().await.unwrap();
let _: () = connection.set("test", "test_data").await.unwrap();
let rv: String = connection.get("test").await.unwrap();
return rv;
}Support for the RedisJSON Module can be enabled by specifying "json" as a feature in your Cargo.toml.
redis = { version = "0.25.2", features = ["json"] }
Then you can simply import the JsonCommands trait which will add the json commands to all Redis Connections (not to be confused with just Commands which only adds the default commands)
use redis::Client;
use redis::JsonCommands;
use redis::RedisResult;
use redis::ToRedisArgs;
// Result returns Ok(true) if the value was set
// Result returns Err(e) if there was an error with the server itself OR serde_json was unable to serialize the boolean
fn set_json_bool<P: ToRedisArgs>(key: P, path: P, b: bool) -> RedisResult<bool> {
let client = Client::open("redis://127.0.0.1").unwrap();
let connection = client.get_connection(None).unwrap();
// runs `JSON.SET {key} {path} {b}`
connection.json_set(key, path, b)?
}To parse the results, you'll need to use serde_json (or some other json lib) to deserialize
the results from the bytes. It will always be a Vec, if no results were found at the path it'll
be an empty Vec. If you want to handle deserialization and Vec unwrapping automatically,
you can use the Json wrapper from the
redis-macros crate.
To test redis you're going to need to be able to test with the Redis Modules, to do this
you must set the following environment variable before running the test script
-
REDIS_RS_REDIS_JSON_PATH= The absolute path to the RedisJSON module (Eitherlibrejson.sofor Linux orlibrejson.dylibfor MacOS). -
Please refer to this link to access the RedisJSON module:
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):
$ 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/<target>/
$ cargo run --bin reproduce -- out/crashes/<crashfile>