package bridge import ( "context" "math" "math/big" "time" "github.com/ethereum/go-ethereum/accounts/abi/bind" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/common/hexutil" ethTypes "github.com/ethereum/go-ethereum/core/types" "github.com/status-im/status-go/account" "github.com/status-im/status-go/contracts" "github.com/status-im/status-go/eth-node/types" "github.com/status-im/status-go/params" "github.com/status-im/status-go/rpc" "github.com/status-im/status-go/services/wallet/token" "github.com/status-im/status-go/transactions" ) const HopLpFeeBps = 4 const HopCanonicalTokenIndex = 0 const HophTokenIndex = 1 const HopMinBonderFeeUsd = 0.25 var HopBondTransferGasLimit = map[uint64]int64{ 1: 165000, 5: 165000, 10: 100000000, 42161: 2500000, 420: 100000000, 421613: 2500000, } var HopSettlementGasLimitPerTx = map[uint64]int64{ 1: 5141, 5: 5141, 10: 8545, 42161: 19843, 420: 8545, 421613: 19843, } var HopBonderFeeBps = map[string]map[uint64]int64{ "USDC": { 1: 14, 5: 14, 10: 14, 42161: 14, 420: 14, 421613: 14, }, "USDT": { 1: 26, 10: 26, 421613: 26, }, "DAI": { 1: 26, 10: 26, 42161: 26, }, "ETH": { 1: 5, 5: 5, 10: 5, 42161: 5, 420: 5, 421613: 5, }, "WBTC": { 1: 23, 10: 23, 42161: 23, }, } type HopTxArgs struct { transactions.SendTxArgs ChainID uint64 `json:"chainId"` Symbol string `json:"symbol"` Recipient common.Address `json:"recipient"` Amount *hexutil.Big `json:"amount"` BonderFee *hexutil.Big `json:"bonderFee"` } type HopBridge struct { contractMaker *contracts.ContractMaker } func NewHopBridge(rpcClient *rpc.Client) *HopBridge { return &HopBridge{ contractMaker: &contracts.ContractMaker{RPCClient: rpcClient}, } } func (h *HopBridge) Name() string { return "Hop" } func (h *HopBridge) Can(from, to *params.Network, token *token.Token, balance *big.Int) (bool, error) { if balance.Cmp(big.NewInt(0)) == 0 { return false, nil } if from.ChainID == to.ChainID { return false, nil } fees, ok := HopBonderFeeBps[token.Symbol] if !ok { return false, nil } if _, ok := fees[from.ChainID]; !ok { return false, nil } if _, ok := fees[to.ChainID]; !ok { return false, nil } return true, nil } func (h *HopBridge) EstimateGas(from, to *params.Network, token *token.Token, amountIn *big.Int) (uint64, error) { // TODO: find why this doesn't work // ethClient, err := s.contractMaker.RPCClient.EthClient(from.ChainID) // if err != nil { // return 0, err // } // zero := common.HexToAddress("0x0") // zeroInt := big.NewInt(0) // var data []byte // if from.Layer == 1 { // bridgeABI, err := abi.JSON(strings.NewReader(hopBridge.HopBridgeABI)) // if err != nil { // return 0, err // } // data, err = bridgeABI.Pack("sendToL2", big.NewInt(int64(to.ChainID)), zero, amountIn, zeroInt, zeroInt, zero, zeroInt) // if err != nil { // return 0, err // } // } else { // wrapperABI, err := abi.JSON(strings.NewReader(hopWrapper.HopWrapperABI)) // if err != nil { // return 0, err // } // data, err = wrapperABI.Pack("swapAndSend", big.NewInt(int64(to.ChainID)), zero, amountIn, zeroInt, zeroInt, zeroInt, zeroInt, zeroInt) // if err != nil { // return 0, err // } // } // estimate, err := ethClient.EstimateGas(context.Background(), ethereum.CallMsg{ // From: zero, // To: &token.Address, // Value: big.NewInt(0), // Data: data, // }) return 500000 + 1000, nil } func (h *HopBridge) Send(sendArgs *TransactionBridge, verifiedAccount *account.SelectedExtKey) (hash types.Hash, err error) { networks, err := h.contractMaker.RPCClient.NetworkManager.Get(false) if err != nil { return hash, err } var fromNetwork *params.Network for _, network := range networks { if network.ChainID == sendArgs.ChainID { fromNetwork = network break } } if fromNetwork.Layer == 1 { return h.sendToL2(sendArgs.ChainID, sendArgs.HopTx, verifiedAccount) } return h.swapAndSend(sendArgs.ChainID, sendArgs.HopTx, verifiedAccount) } func getSigner(chainID uint64, from types.Address, verifiedAccount *account.SelectedExtKey) bind.SignerFn { return func(addr common.Address, tx *ethTypes.Transaction) (*ethTypes.Transaction, error) { s := ethTypes.NewLondonSigner(new(big.Int).SetUint64(chainID)) return ethTypes.SignTx(tx, s, verifiedAccount.AccountKey.PrivateKey) } } func (h *HopBridge) sendToL2(chainID uint64, sendArgs *HopTxArgs, verifiedAccount *account.SelectedExtKey) (hash types.Hash, err error) { bridge, err := h.contractMaker.NewHopL1Bridge(chainID, sendArgs.Symbol) if err != nil { return hash, err } txOpts := sendArgs.ToTransactOpts(getSigner(chainID, sendArgs.From, verifiedAccount)) txOpts.Value = (*big.Int)(sendArgs.Amount) now := time.Now() deadline := big.NewInt(now.Unix() + 604800) tx, err := bridge.SendToL2( txOpts, big.NewInt(int64(sendArgs.ChainID)), sendArgs.Recipient, sendArgs.Amount.ToInt(), big.NewInt(0), deadline, common.HexToAddress("0x0"), big.NewInt(0), ) if err != nil { return hash, err } return types.Hash(tx.Hash()), nil } func (h *HopBridge) swapAndSend(chainID uint64, sendArgs *HopTxArgs, verifiedAccount *account.SelectedExtKey) (hash types.Hash, err error) { ammWrapper, err := h.contractMaker.NewHopL2AmmWrapper(chainID, sendArgs.Symbol) if err != nil { return hash, err } txOpts := sendArgs.ToTransactOpts(getSigner(chainID, sendArgs.From, verifiedAccount)) txOpts.Value = (*big.Int)(sendArgs.Amount) now := time.Now() deadline := big.NewInt(now.Unix() + 604800) tx, err := ammWrapper.SwapAndSend( txOpts, big.NewInt(int64(sendArgs.ChainID)), sendArgs.Recipient, sendArgs.Amount.ToInt(), sendArgs.BonderFee.ToInt(), big.NewInt(0), deadline, big.NewInt(0), deadline, ) if err != nil { return hash, err } return types.Hash(tx.Hash()), nil } // CalculateBonderFees logics come from: https://docs.hop.exchange/fee-calculation func (h *HopBridge) CalculateBonderFees(from, to *params.Network, token *token.Token, amountIn *big.Int, nativeTokenPrice, tokenPrice float64, gasPrice *big.Float) (*big.Int, error) { amount := new(big.Float).SetInt(amountIn) totalFee := big.NewFloat(0) destinationTxFee, err := h.getDestinationTxFee(from, to, nativeTokenPrice, tokenPrice, gasPrice) if err != nil { return nil, err } bonderFeeRelative, err := h.getBonderFeeRelative(from, to, amount, token) if err != nil { return nil, err } if from.Layer != 1 { adjustedBonderFee, err := h.calcFromHTokenAmount(to, bonderFeeRelative, token.Symbol) if err != nil { return nil, err } adjustedDestinationTxFee, err := h.calcToHTokenAmount(to, destinationTxFee, token.Symbol) if err != nil { return nil, err } bonderFeeAbsolute := h.getBonderFeeAbsolute(tokenPrice) if adjustedBonderFee.Cmp(bonderFeeAbsolute) == -1 { adjustedBonderFee = bonderFeeAbsolute } totalFee.Add(adjustedBonderFee, adjustedDestinationTxFee) } res, _ := new(big.Float).Mul(totalFee, big.NewFloat(math.Pow(10, float64(token.Decimals)))).Int(nil) return res, nil } func (h *HopBridge) CalculateFees(from, to *params.Network, token *token.Token, amountIn *big.Int, nativeTokenPrice, tokenPrice float64, gasPrice *big.Float) (*big.Int, *big.Int, error) { bonderFees, err := h.CalculateBonderFees(from, to, token, amountIn, nativeTokenPrice, tokenPrice, gasPrice) if err != nil { return nil, nil, err } amountOut, err := h.amountOut(from, to, new(big.Float).SetInt(amountIn), token.Symbol) if err != nil { return nil, nil, err } amountOutInt, _ := amountOut.Int(nil) return bonderFees, new(big.Int).Add( bonderFees, new(big.Int).Sub(amountIn, amountOutInt), ), nil } func (h *HopBridge) calcToHTokenAmount(network *params.Network, amount *big.Float, symbol string) (*big.Float, error) { if network.Layer == 1 || amount.Cmp(big.NewFloat(0)) == 0 { return amount, nil } contract, err := h.contractMaker.NewHopL2SaddlSwap(network.ChainID, symbol) if err != nil { return nil, err } amountInt, _ := amount.Int(nil) res, err := contract.CalculateSwap(&bind.CallOpts{Context: context.Background()}, HopCanonicalTokenIndex, HophTokenIndex, amountInt) if err != nil { return nil, err } return new(big.Float).SetInt(res), nil } func (h *HopBridge) calcFromHTokenAmount(network *params.Network, amount *big.Float, symbol string) (*big.Float, error) { if network.Layer == 1 || amount.Cmp(big.NewFloat(0)) == 0 { return amount, nil } contract, err := h.contractMaker.NewHopL2SaddlSwap(network.ChainID, symbol) if err != nil { return nil, err } amountInt, _ := amount.Int(nil) res, err := contract.CalculateSwap(&bind.CallOpts{Context: context.Background()}, HophTokenIndex, HopCanonicalTokenIndex, amountInt) if err != nil { return nil, err } return new(big.Float).SetInt(res), nil } func (h *HopBridge) CalculateAmountOut(from, to *params.Network, amountIn *big.Int, symbol string) (*big.Int, error) { amountOut, err := h.amountOut(from, to, new(big.Float).SetInt(amountIn), symbol) if err != nil { return nil, err } amountOutInt, _ := amountOut.Int(nil) return amountOutInt, nil } func (h *HopBridge) amountOut(from, to *params.Network, amountIn *big.Float, symbol string) (*big.Float, error) { hTokenAmount, err := h.calcToHTokenAmount(from, amountIn, symbol) if err != nil { return nil, err } return h.calcFromHTokenAmount(to, hTokenAmount, symbol) } func (h *HopBridge) getBonderFeeRelative(from, to *params.Network, amount *big.Float, token *token.Token) (*big.Float, error) { if from.Layer != 1 { return big.NewFloat(0), nil } hTokenAmount, err := h.calcToHTokenAmount(from, amount, token.Symbol) if err != nil { return nil, err } feeBps := HopBonderFeeBps[token.Symbol][to.ChainID] factor := new(big.Float).Mul(hTokenAmount, big.NewFloat(float64(feeBps))) return new(big.Float).Quo( factor, big.NewFloat(10000), ), nil } func (h *HopBridge) getBonderFeeAbsolute(tokenPrice float64) *big.Float { return new(big.Float).Quo(big.NewFloat(HopMinBonderFeeUsd), big.NewFloat(tokenPrice)) } func (h *HopBridge) getDestinationTxFee(from, to *params.Network, nativeTokenPrice, tokenPrice float64, gasPrice *big.Float) (*big.Float, error) { if from.Layer != 1 { return big.NewFloat(0), nil } bondTransferGasLimit := HopBondTransferGasLimit[to.ChainID] settlementGasLimit := HopSettlementGasLimitPerTx[to.ChainID] totalGasLimit := new(big.Int).Add(big.NewInt(bondTransferGasLimit), big.NewInt(settlementGasLimit)) rate := new(big.Float).Quo(big.NewFloat(nativeTokenPrice), big.NewFloat(tokenPrice)) txFeeEth := new(big.Float).Mul(gasPrice, new(big.Float).SetInt(totalGasLimit)) return new(big.Float).Mul(txFeeEth, rate), nil }