2 releases

0.1.1 Jan 21, 2024
0.1.0 Jan 1, 2024

#2753 in Database interfaces


Used in bitcasky-database

MIT license

46KB
1K SLoC

Bitcasky

Crates.io MIT licensed codecov Build Status

Bitcasky is a Rust implementation of the Bitcask key-value store. It is an ACID-compliant, append-only key-value store that provides high write throughput. It is optimized for write-heavy workloads, and is commonly used for applications such as log storage and time-series data.

Features

  • Append-only storage for durability and consistency
  • Memory-mapped files for efficient I/O
  • Key-value storage with O(1) read and write performance
  • Store expirable values

Usage

Basic usage

To use Bitcasky, simply add it to your Cargo.toml file:

[dependencies]
bitcasky = "0.1.2"

Then, in your Rust code, import the bitcasky crate and start using the key-value store:

use bitcasky::Bitcasky;

fn main() {
    let mut db = Bitcasky::open("/path/to/db", BitcaskyOptions::default()).unwrap()

    db.put("key", "value").unwrap();

    assert!(db.has("key").unwrap());

    let value = db.get("key").unwrap().unwrap();

    println!("{:?}", value);
}

Store expirable value

db.put_with_ttl("key", "value", Duration::from_secs(60)).unwrap();

// 60 seconds later
assert!(db.get("key").unwrap().is_none());

Delete some value or the entire database

db.put("key1", "value1").unwrap();
db.put("key2", "value2").unwrap();

// delete some value
db.delete("key1").unwrap();
assert!(db.get("key1").unwrap().is_none());

// drop database
db.drop().unwrap();
assert!(db.get("key2").unwrap().is_none());

Iterate database

Iterate all keys.

// iterate and print all keys in database
bc.foreach_key(|k| println!("{}", String::from_utf8_lossy(k))).unwrap();

// fold all keys by concatenate them
let ret = bc.fold_key(
        |k, accumulator: Option<String>| match accumulator {
            // concatenate new key to folded key string
            Some(folded_k) => Ok(Some(folded_k + &String::from_utf8_lossy(k))),
            
            // if we have not fold anything, use this new key as folded key
            None => Ok(Some(String::from_utf8_lossy(k).into())),
        },
        // init accumulator
        None,
    )
    .unwrap();
assert!(ret.is_some());
println!("{}", ret.unwrap());

Iterate all keys and values.

// iterate and print all keys and values in database
bc.foreach(|k, v| {
    println!(
        "key: {}, value: {}",
        String::from_utf8_lossy(k),
        String::from_utf8_lossy(v)
    )
})
.unwrap();

// fold all keys and values by concatenate them
let ret = bc
    .fold(
        |k, v, accumulator: Option<String>| match accumulator {
            // concatenate new key and value to folded values
            Some(folded_vals) => Ok(Some(format!(
                "{} key: {}, val: {};",
                folded_vals,
                String::from_utf8_lossy(k),
                String::from_utf8_lossy(v)
            ))),

            // if we have not fold anything, use this new key and value as folded values
            None => Ok(Some(format!(
                "key: {}, val: {};",
                String::from_utf8_lossy(k),
                String::from_utf8_lossy(v)
            ))),
        },
        // init accumulator
        None,
    )
    .unwrap();
assert!(ret.is_some());
println!("{}", ret.unwrap());

Sync strategy

By choosing a sync strategy, you can configure the durability of writes by specifying when to synchronize data to disk.

The following sync strategies are available:

  • None — lets the operating system manage syncing writes
  • OSync — uses the O_SYNC flag, which forces syncs on every write
  • Time interval — sync at specified intervals (default: 60 secs)

For example, create a Bitcasky database which sync on every 35 secs as follows:

let db = Bitcasky::open(
        "/path/to/db", 
        BitcaskyOptions::default().sync_strategy(SyncStrategy::Interval(Duration::from_secs(35)))
    ).unwrap();

Merge process

Bitcasky need to call merge periodically to reduce disk usage. The merge process traverses data files and reclaims space by eliminating out-of-date of deleted key/value pairs, writing only the current key/value pairs to a new set of files within the directory.

Start merge process by calling merge on Bitcaksy instance like this:

db.merge().unwrap();

License

This project is licensed under the MIT license.

Dependencies

~3–11MB
~145K SLoC