Setup In-memory Cache
This article will guide you through the process of setting up an in-memory cache.
The in-memory cache Cache
is literally an in-memory only cache. Which provides non-overhead in-memory cache implement for users only want to replace their in-memory cache with foyer, and cannot upgrade to a hybrid cache later.
The hybrid cache HybridCache
also provides a in-memory only mode. If you want to try foyer out with the in-memory mode and have the needs of a hybrid cache, please use HybridCache
. See Tutorial - Hybrid Cache.
1. Add foyer as a dependency
Add this line to the [dependencies]
section of your project's Cargo.toml
.
foyer = "0.11"
If you are using a nightly version of the rust toolchain, the nightly
feature is needed.
foyer = { version = "0.11", features = ["nightly"] }
2. Build a Cache
2.1 Build with a builder
Cache
1 can be built via CacheBuilder
2. For the default configuration, only capacity
is required.
use foyer::{Cache, CacheBuilder};
// ... ...
let cache: Cache<String, String> = CacheBuilder::new(16).build();
2.2 Count entries by weight
By default, Cache
counts its usage for eviction by entry count. In the case below, which is 16.
Counting by entry count may be not suitable for all cases. So, foyer also provides an interface to let the user decide how to count the usage.
let cache: Cache<String, String> = CacheBuilder::new(10000)
.with_weighter(|key, value| key.len() + value.len())
.build();
With with_weighter()
3, you can customize how Cache
counts its usage. In the case below, the usage is counted by the total character length of the entry.
The weighter can be implemented to count anything. Count, length, memory usage, or anything you want.
2.3 Mitigate hot shards
The in-memory cache in foyer is a sharded cache. Each shard is protected by an individual mutex. Sometimes, one or more shards can be much hotter than others and cause performance regression.
There are two ways to mitigate the hot shards.
- Scale the shards
Scaling the shard may reduce the possibility to create hot shards. You can scale the shards to a higher number with with_shards()
.4
let cache: Cache<String, String> = CacheBuilder::new(1024)
.with_shards(64)
.build();
- Use a customized hasher
By default, foyer uses ahash
5 as the hasher to determine which shard a key belongs to. You can use your own hasher with with_hash_builder()
.6
let cache: Cache<String, String> = CacheBuilder::new(1024)
.with_hash_builder(CustomizedRandomState::default())
.build();
2.4 More configurations
Please refer to the API document.2
3. Use Cache
as any other cache library
Cache
provides similar interfaces to caches from any other cache library.
Here is an example.
use foyer::{Cache, CacheBuilder};
fn main() {
let cache: Cache<String, String> = CacheBuilder::new(16).build();
let entry = cache.insert("hello".to_string(), "world".to_string());
let e = cache.get("hello").unwrap();
assert_eq!(entry.value(), e.value());
}
For other interfaces, please refer to the API document.1
References
-
https://docs.rs/foyer/latest/foyer/struct.CacheBuilder.html ↩ ↩2
-
https://docs.rs/foyer/latest/foyer/struct.CacheBuilder.html#method.with_weighter ↩
-
https://docs.rs/foyer/latest/foyer/struct.CacheBuilder.html#method.with_shards ↩
-
https://docs.rs/foyer/latest/foyer/struct.CacheBuilder.html#method.with_hash_builder ↩