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main.sw
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contract;
// This contract receives messages sent from an instance of FuelERC20Gateway
// deployed at the L1. The messages are relayed by the message predicate.
// Upon processing a message, funds are minted to the receiver.
// Hexens FUEL1-21: This contract might be able to receive BASE_ASSET and
// without a rescue function, the BASE_ASSET funds might get stuck.
// Special care must be put when sending messages from the gateway to this
// contract so that they do not cointain BASE_ASSET funds
mod data_structures;
mod errors;
mod events;
mod utils;
use contract_message_receiver::MessageReceiver;
use errors::BridgeFungibleTokenError;
use data_structures::{
constants::{
CONTRACT_DEPOSIT,
CONTRACT_DEPOSIT_WITH_DATA,
DEPOSIT,
},
deposit_message::{
DepositMessage,
DepositType,
},
message_data::MessageData,
metadata_message::MetadataMessage,
};
use events::{ClaimRefundEvent, DepositEvent, RefundRegisteredEvent, WithdrawalEvent};
use interface::bridge::Bridge;
use sway_libs::reentrancy::reentrancy_guard;
use std::{
asset::{
burn,
mint,
transfer,
},
call_frames::msg_asset_id,
context::msg_amount,
flags::{
disable_panic_on_overflow,
enable_panic_on_overflow,
},
hash::Hash,
hash::sha256,
inputs::input_message_sender,
message::send_message,
primitive_conversions::u64::*,
storage::{
storage_string::*,
},
string::String,
};
use utils::encode_data;
use standards::{
src20::{
SetDecimalsEvent,
SetNameEvent,
SetSymbolEvent,
SRC20,
TotalSupplyEvent,
},
src7::{
Metadata,
SetMetadataEvent,
SRC7,
},
};
const FUEL_ASSET_DECIMALS: u8 = 9u8;
configurable {
BRIDGED_TOKEN_GATEWAY: b256 = 0x00000000000000000000000096c53cd98B7297564716a8f2E1de2C83928Af2fe,
}
storage {
bridge {
asset_to_sub_id: StorageMap<AssetId, SubId> = StorageMap {},
asset_to_token_id: StorageMap<AssetId, b256> = StorageMap {},
refund_amounts: StorageMap<b256, StorageMap<b256, u256>> = StorageMap {},
tokens_minted: StorageMap<AssetId, u64> = StorageMap {},
l1_addresses: StorageMap<AssetId, b256> = StorageMap {},
l1_symbols: StorageMap<b256, StorageString> = StorageMap {},
l1_names: StorageMap<b256, StorageString> = StorageMap {},
decimals: StorageMap<b256, u8> = StorageMap {},
total_assets: u64 = 0,
},
}
// Implement the process_message function required to be a message receiver
impl MessageReceiver for Contract {
#[payable]
#[storage(read, write)]
fn process_message(msg_idx: u64) {
// Protect against reentrancy attacks that could allow replaying messages
reentrancy_guard();
let input_sender: b256 = input_message_sender(msg_idx).unwrap().into();
require(
input_sender == BRIDGED_TOKEN_GATEWAY,
BridgeFungibleTokenError::UnauthorizedSender,
);
match MessageData::parse(msg_idx) {
MessageData::Deposit(deposit) => _process_deposit(deposit, msg_idx),
MessageData::Metadata(metadata) => _process_metadata(metadata),
};
}
}
impl Bridge for Contract {
#[storage(read, write)]
fn claim_refund(from: b256, token_address: b256, token_id: b256) {
let asset = _generate_sub_id_from_metadata(token_address, token_id);
let amount = storage::bridge.refund_amounts.get(from).get(asset).try_read().unwrap_or(u256::zero());
require(
amount != u256::zero(),
BridgeFungibleTokenError::NoRefundAvailable,
);
// reset the refund amount to 0
storage::bridge
.refund_amounts
.get(from)
.insert(asset, u256::zero());
// send a message to unlock this amount on the base layer gateway contract
send_message(
BRIDGED_TOKEN_GATEWAY,
encode_data(from, amount.as_b256(), token_address, token_id),
0,
);
log(ClaimRefundEvent {
amount,
from,
token_address,
token_id,
});
}
#[payable]
#[storage(read, write)]
fn withdraw(to: b256) {
let amount: u64 = msg_amount();
require(amount != 0, BridgeFungibleTokenError::NoCoinsSent);
require(
to != b256::zero(),
BridgeFungibleTokenError::WithdrawalToZeroAddress,
);
let asset_id = msg_asset_id();
let sub_id = _asset_to_sub_id(asset_id);
let token_id = _asset_to_token_id(asset_id);
let l1_address = _asset_to_l1_address(asset_id);
// Hexens Fuel1-4: Might benefit from a custom error message
let new_total_supply = storage::bridge.tokens_minted.get(asset_id).read() - amount;
storage::bridge
.tokens_minted
.insert(asset_id, new_total_supply);
burn(sub_id, amount);
let sender = msg_sender().unwrap();
log(TotalSupplyEvent {
asset: asset_id,
supply: new_total_supply,
sender,
});
// send a message to unlock this amount on the base layer gateway contract
send_message(
BRIDGED_TOKEN_GATEWAY,
encode_data(to, amount.as_u256().as_b256(), l1_address, token_id),
0,
);
log(WithdrawalEvent {
to: to,
from: sender,
amount: amount,
token_id
});
}
fn bridged_token_gateway() -> b256 {
BRIDGED_TOKEN_GATEWAY
}
#[storage(read)]
fn asset_to_sub_id(asset_id: AssetId) -> SubId {
_asset_to_sub_id(asset_id)
}
#[storage(read)]
fn asset_to_l1_address(asset_id: AssetId) -> b256 {
_asset_to_l1_address(asset_id)
}
}
impl SRC20 for Contract {
#[storage(read)]
fn total_assets() -> u64 {
storage::bridge.total_assets.try_read().unwrap_or(0)
}
#[storage(read)]
fn total_supply(asset: AssetId) -> Option<u64> {
storage::bridge.tokens_minted.get(asset).try_read()
}
#[storage(read)]
fn name(asset: AssetId) -> Option<String> {
let l1_address = _asset_to_l1_address(asset);
storage::bridge.l1_names.get(l1_address).read_slice()
}
#[storage(read)]
fn symbol(asset: AssetId) -> Option<String> {
let l1_address = _asset_to_l1_address(asset);
storage::bridge.l1_symbols.get(l1_address).read_slice()
}
#[storage(read)]
fn decimals(asset: AssetId) -> Option<u8> {
match storage::bridge.l1_addresses.get(asset).try_read() {
Some(l1_address) => storage::bridge.decimals.get(l1_address).try_read(),
None => None,
}
}
}
impl SRC7 for Contract {
#[storage(read)]
fn metadata(asset: AssetId, key: String) -> Option<Metadata> {
let sub_id = storage::bridge.asset_to_sub_id.get(asset).try_read();
if (sub_id.is_none()) {
return None;
};
let result = if key == String::from_ascii_str("bridged:chain") {
Some(Metadata::String(String::from_ascii_str("1")))
} else if key == String::from_ascii_str("bridged:address") {
Some(Metadata::B256(storage::bridge.l1_addresses.get(asset).read()))
} else if key == String::from_ascii_str("bridged:decimals") {
let l1_address = storage::bridge.l1_addresses.get(asset).read();
Some(Metadata::Int(storage::bridge.decimals.get(l1_address).read().into()))
} else if key == String::from_ascii_str("bridged:id") {
Some(Metadata::B256(storage::bridge.asset_to_token_id.get(asset).read()))
} else {
None
};
result
}
}
// Storage-dependant private functions
#[storage(write)]
fn register_refund(
from: b256,
token_address: b256,
token_id: b256,
amount: b256,
) {
let asset = _generate_sub_id_from_metadata(token_address, token_id);
let previous_amount = storage::bridge.refund_amounts.get(from).get(asset).try_read().unwrap_or(u256::zero());
let new_amount = amount.as_u256() + previous_amount;
storage::bridge
.refund_amounts
.get(from)
.insert(asset, new_amount);
log(RefundRegisteredEvent {
from,
token_address,
token_id,
amount,
});
}
#[storage(read)]
fn _asset_to_sub_id(asset_id: AssetId) -> SubId {
let sub_id = storage::bridge.asset_to_sub_id.get(asset_id).try_read();
require(sub_id.is_some(), BridgeFungibleTokenError::AssetNotFound);
sub_id.unwrap()
}
#[storage(read)]
fn _asset_to_token_id(asset_id: AssetId) -> b256 {
let token_id = storage::bridge.asset_to_token_id.get(asset_id).try_read();
require(token_id.is_some(), BridgeFungibleTokenError::AssetNotFound);
token_id.unwrap()
}
#[storage(read)]
fn _asset_to_l1_address(asset_id: AssetId) -> b256 {
let l1_address = storage::bridge.l1_addresses.get(asset_id).try_read();
require(
l1_address
.is_some(),
BridgeFungibleTokenError::AssetNotFound,
);
l1_address.unwrap()
}
#[storage(read, write)]
fn _process_deposit(message_data: DepositMessage, msg_idx: u64) {
require(
message_data
.amount != b256::zero(),
BridgeFungibleTokenError::NoCoinsSent,
);
let amount: u64 = match <u64 as TryFrom<u256>>::try_from(message_data.amount.as_u256()) {
Some(value) => value,
None => {
register_refund(
message_data
.from,
message_data
.token_address,
message_data
.token_id,
message_data
.amount,
);
return;
}
};
let sub_id = _generate_sub_id_from_metadata(message_data.token_address, message_data.token_id);
let asset_id = AssetId::new(ContractId::this(), sub_id);
let _ = disable_panic_on_overflow();
let current_total_supply = storage::bridge.tokens_minted.get(asset_id).try_read().unwrap_or(0);
let new_total_supply = current_total_supply + amount;
if new_total_supply < current_total_supply {
register_refund(
message_data
.from,
message_data
.token_address,
message_data
.token_id,
message_data
.amount,
);
return;
}
let _ = enable_panic_on_overflow();
storage::bridge
.tokens_minted
.insert(asset_id, new_total_supply);
// Store asset metadata if it is the first time that funds are bridged
let sender = Identity::Address(Address::from(BRIDGED_TOKEN_GATEWAY));
if storage::bridge.asset_to_sub_id.get(asset_id).try_read().is_none()
{
log(SetMetadataEvent {
asset: asset_id,
metadata: Some(Metadata::String(String::from_ascii_str("1"))),
key: String::from_ascii_str("bridged:chain"),
sender,
});
storage::bridge.asset_to_sub_id.insert(asset_id, sub_id);
storage::bridge
.asset_to_token_id
.insert(asset_id, message_data.token_id);
log(SetMetadataEvent {
asset: asset_id,
metadata: Some(Metadata::B256(message_data.token_id)),
key: String::from_ascii_str("bridged:id"),
sender,
});
storage::bridge
.total_assets
.write(storage::bridge.total_assets.try_read().unwrap_or(0) + 1);
storage::bridge
.l1_addresses
.insert(asset_id, message_data.token_address);
log(SetMetadataEvent {
asset: asset_id,
metadata: Some(Metadata::B256(message_data.token_address)),
key: String::from_ascii_str("bridged:address"),
sender,
});
if message_data.decimals < FUEL_ASSET_DECIMALS {
storage::bridge
.decimals
.insert(message_data.token_address, message_data.decimals);
log(SetDecimalsEvent {
asset: asset_id,
decimals: message_data.decimals,
sender,
});
log(SetMetadataEvent {
asset: asset_id,
metadata: Some(Metadata::Int(message_data.decimals.into())),
key: String::from_ascii_str("bridged:decimals"),
sender,
});
} else {
storage::bridge
.decimals
.insert(message_data.token_address, FUEL_ASSET_DECIMALS);
log(SetDecimalsEvent {
asset: asset_id,
decimals: FUEL_ASSET_DECIMALS,
sender,
});
log(SetMetadataEvent {
asset: asset_id,
metadata: Some(Metadata::Int(FUEL_ASSET_DECIMALS.into())),
key: String::from_ascii_str("bridged:decimals"),
sender,
});
}
};
// mint tokens & update storage
mint(sub_id, amount);
log(TotalSupplyEvent {
asset: asset_id,
supply: new_total_supply,
sender,
});
match message_data.deposit_type {
DepositType::Address | DepositType::Contract => {
transfer(message_data.to, asset_id, amount)
},
DepositType::ContractWithData => {
let contract_id: b256 = message_data.to.as_contract_id().unwrap().into();
let dest_contract = abi(MessageReceiver, contract_id);
// TODO: Hexens Fuel1-2, if this call fails, funds may get stuck
dest_contract
.process_message {
coins: amount,
asset_id: asset_id.into(),
}(msg_idx);
}
};
log(DepositEvent {
to: message_data.to,
from: message_data.from,
amount: amount,
token_id: message_data.token_id
});
}
#[storage(read, write)]
fn _process_metadata(metadata: MetadataMessage) {
let sub_id = _generate_sub_id_from_metadata(metadata.token_address, metadata.token_id);
let asset_id = AssetId::new(ContractId::this(), sub_id);
// Important to note: in order to register metadata for an asset,
// it must have been deposited first
let l1_address = _asset_to_l1_address(asset_id);
storage::bridge
.l1_names
.get(l1_address)
.write_slice(metadata.name);
storage::bridge
.l1_symbols
.get(l1_address)
.write_slice(metadata.symbol);
let sender = Identity::Address(Address::from(BRIDGED_TOKEN_GATEWAY));
log(SetNameEvent {
asset: asset_id,
name: Some(metadata.name),
sender,
});
log(SetSymbolEvent {
asset: asset_id,
symbol: Some(metadata.symbol),
sender,
});
}
fn _generate_sub_id_from_metadata(token_address: b256, token_id: b256) -> b256 {
// SRC8: sub_id = sha256(chain_id ++ token_address + token_id)
sha256((String::from_ascii_str("1"), token_address, token_id))
}