use crate::{
config::chain_config::CoinConfig,
database::{
columns::{self, COIN, OWNED_COINS},
Database, KvStoreError,
},
model::Coin,
state::{Error, IterDirection},
};
use fuel_core_interfaces::common::{
fuel_storage::Storage,
fuel_tx::{Address, AssetId, Bytes32, UtxoId},
};
use fuel_core_interfaces::model::Coin as CoinModel;
use itertools::Itertools;
use std::borrow::Cow;
fn owner_coin_id_key(owner: &Address, coin_id: &UtxoId) -> Vec<u8> {
owner
.as_ref()
.iter()
.chain(utxo_id_to_bytes(coin_id).iter())
.copied()
.collect()
}
const SIZE_OF_UTXO_ID: usize = 264;
fn utxo_id_to_bytes(utxo_id: &UtxoId) -> Vec<u8> {
let mut out = Vec::with_capacity(SIZE_OF_UTXO_ID);
out.extend(utxo_id.tx_id().as_ref().iter());
out.push(utxo_id.output_index());
out
}
impl Storage<UtxoId, Coin> for Database {
type Error = KvStoreError;
fn insert(&mut self, key: &UtxoId, value: &Coin) -> Result<Option<Coin>, KvStoreError> {
let coin_by_owner: Vec<u8> = owner_coin_id_key(&value.owner, key);
let insert = Database::insert(self, utxo_id_to_bytes(key), columns::COIN, value.clone())?;
Database::insert(self, coin_by_owner, columns::OWNED_COINS, true)?;
Ok(insert)
}
fn remove(&mut self, key: &UtxoId) -> Result<Option<Coin>, KvStoreError> {
let coin: Option<Coin> = Database::remove(self, &utxo_id_to_bytes(key), columns::COIN)?;
if let Some(coin) = &coin {
let key = owner_coin_id_key(&coin.owner, key);
let _: Option<bool> = Database::remove(self, key.as_slice(), columns::OWNED_COINS)?;
}
Ok(coin)
}
fn get(&self, key: &UtxoId) -> Result<Option<Cow<Coin>>, KvStoreError> {
Database::get(self, &utxo_id_to_bytes(key), columns::COIN).map_err(Into::into)
}
fn contains_key(&self, key: &UtxoId) -> Result<bool, KvStoreError> {
Database::exists(self, &utxo_id_to_bytes(key), columns::COIN).map_err(Into::into)
}
}
impl Database {
pub fn owned_coins(
&self,
owner: Address,
start_coin: Option<UtxoId>,
direction: Option<IterDirection>,
) -> impl Iterator<Item = Result<UtxoId, Error>> + '_ {
self.iter_all::<Vec<u8>, bool>(
OWNED_COINS,
Some(owner.as_ref().to_vec()),
start_coin.map(|b| owner_coin_id_key(&owner, &b)),
direction,
)
.map(|res| {
res.map(|(key, _)| {
UtxoId::new(
unsafe { Bytes32::from_slice_unchecked(&key[32..64]) },
key[64],
)
})
})
}
pub fn owned_coins_by_asset_id(
&self,
owner: Address,
asset_id: AssetId,
start_coin: Option<UtxoId>,
direction: Option<IterDirection>,
) -> impl Iterator<Item = Result<UtxoId, Error>> + '_ {
self.iter_all::<Vec<u8>, bool>(
OWNED_COINS,
Some(owner.as_ref().to_vec()),
start_coin.map(|b| owner_coin_id_key(&owner, &b)),
direction,
)
.map(|res| {
res.map(|(key, _)| {
UtxoId::new(
unsafe { Bytes32::from_slice_unchecked(&key[32..64]) },
key[64],
)
})
})
.filter_ok(move |id| {
Storage::<UtxoId, Coin>::get(self, id)
.unwrap()
.unwrap()
.asset_id
== asset_id
})
}
pub fn get_coin_config(&self) -> anyhow::Result<Option<Vec<CoinConfig>>> {
let configs = self
.iter_all::<Vec<u8>, CoinModel>(COIN, None, None, None)
.map(|raw_coin| -> Result<CoinConfig, anyhow::Error> {
let coin = raw_coin?;
let byte_id = Bytes32::new(coin.0[..32].try_into()?);
let output_index = coin.0[32];
Ok(CoinConfig {
tx_id: Some(byte_id),
output_index: Some(output_index.into()),
block_created: Some(coin.1.block_created),
maturity: Some(coin.1.maturity),
owner: coin.1.owner,
amount: coin.1.amount,
asset_id: coin.1.asset_id,
})
})
.collect::<Result<Vec<CoinConfig>, anyhow::Error>>()?;
Ok(Some(configs))
}
}