This package is a low-level wrapper transforming RocksDB from a byte-oriented key value store into a type-oriented store. It's adapted from a similar package in Aptos-Core.
The most important concept exposed by Rockbound is a Schema, which maps a column-family name
codec's for the key and value.
pub trait Schema {
/// The column family name associated with this struct.
/// Note: all schemas within the same DB must have distinct column family names.
const COLUMN_FAMILY_NAME: &'static str;
/// Type of the key.
type Key: KeyCodec<Self>;
/// Type of the value.
type Value: ValueCodec<Self>;
}Using this schema, we can write generic functions for storing and fetching typed data, and ensure that it's always encoded/decoded in the way we expect.
impl SchemaDB {
pub fn put<S: Schema>(&self, key: &impl KeyCodec<S>, value: &impl ValueCodec<S>) -> Result<()> {
let key_bytes = key.encode_key()?;
let value_bytes = value.encode_value()?;
self.rocks_db_handle.put(S::COLUMN_FAMILY_NAME, key_bytes, value_bytes)
}
}To actually store and retrieve data, all we need to do is to implement a Schema:
pub struct AccountBalanceSchema;
impl Schema for AccountBalanceSchema {
const COLUMN_FAMILY_NAME: &str = "account_balances";
type Key = Account;
type Value = u64;
}
impl KeyCodec<AccountBalanceSchema> for Account {
fn encode_key(&self) -> Vec<u8> {
bincode::to_vec(self)
}
fn decode_key(key: Vec<u8>) -> Self {
// elided
}
}
impl ValueCode<AccountBlanceSchema> for u64 {
// elided
}