package pathprocessor import ( "context" "encoding/json" "errors" "fmt" "math/big" "net/url" "strconv" "strings" "time" "github.com/ethereum/go-ethereum" "github.com/ethereum/go-ethereum/accounts/abi" "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/celer" "github.com/status-im/status-go/eth-node/types" "github.com/status-im/status-go/rpc" "github.com/status-im/status-go/params" "github.com/status-im/status-go/services/wallet/router/pathprocessor/cbridge" "github.com/status-im/status-go/services/wallet/thirdparty" "github.com/status-im/status-go/services/wallet/token" "github.com/status-im/status-go/transactions" ) const ( baseURL = "https://cbridge-prod2.celer.app" testBaseURL = "https://cbridge-v2-test.celer.network" maxSlippage = uint32(1000) ) type CelerBridgeTxArgs struct { transactions.SendTxArgs ChainID uint64 `json:"chainId"` Symbol string `json:"symbol"` Recipient common.Address `json:"recipient"` Amount *hexutil.Big `json:"amount"` } type CelerBridgeProcessor struct { rpcClient *rpc.Client httpClient *thirdparty.HTTPClient transactor transactions.TransactorIface tokenManager *token.Manager prodTransferConfig *cbridge.GetTransferConfigsResponse testTransferConfig *cbridge.GetTransferConfigsResponse } func NewCelerBridgeProcessor(rpcClient *rpc.Client, transactor transactions.TransactorIface, tokenManager *token.Manager) *CelerBridgeProcessor { return &CelerBridgeProcessor{ rpcClient: rpcClient, httpClient: thirdparty.NewHTTPClient(), transactor: transactor, tokenManager: tokenManager, } } func createBridgeCellerErrorResponse(err error) error { return createErrorResponse(ProcessorBridgeCelerName, err) } func (s *CelerBridgeProcessor) Name() string { return ProcessorBridgeCelerName } func (s *CelerBridgeProcessor) estimateAmt(from, to *params.Network, amountIn *big.Int, symbol string) (*cbridge.EstimateAmtResponse, error) { base := baseURL if from.IsTest { base = testBaseURL } params := url.Values{} params.Add("src_chain_id", strconv.Itoa(int(from.ChainID))) params.Add("dst_chain_id", strconv.Itoa(int(to.ChainID))) params.Add("token_symbol", symbol) params.Add("amt", amountIn.String()) params.Add("usr_addr", "0xaa47c83316edc05cf9ff7136296b026c5de7eccd") params.Add("slippage_tolerance", "500") url := fmt.Sprintf("%s/v2/estimateAmt", base) response, err := s.httpClient.DoGetRequest(context.Background(), url, params, nil) if err != nil { return nil, createBridgeCellerErrorResponse(err) } var res cbridge.EstimateAmtResponse err = json.Unmarshal(response, &res) if err != nil { return nil, createBridgeCellerErrorResponse(err) } return &res, nil } func (s *CelerBridgeProcessor) getTransferConfig(isTest bool) (*cbridge.GetTransferConfigsResponse, error) { if !isTest && s.prodTransferConfig != nil { return s.prodTransferConfig, nil } if isTest && s.testTransferConfig != nil { return s.testTransferConfig, nil } base := baseURL if isTest { base = testBaseURL } url := fmt.Sprintf("%s/v2/getTransferConfigs", base) response, err := s.httpClient.DoGetRequest(context.Background(), url, nil, nil) if err != nil { return nil, createBridgeCellerErrorResponse(err) } var res cbridge.GetTransferConfigsResponse err = json.Unmarshal(response, &res) if err != nil { return nil, createBridgeCellerErrorResponse(err) } if isTest { s.testTransferConfig = &res } else { s.prodTransferConfig = &res } return &res, nil } func (s *CelerBridgeProcessor) AvailableFor(params ProcessorInputParams) (bool, error) { if params.FromChain.ChainID == params.ToChain.ChainID || params.ToToken != nil { return false, nil } transferConfig, err := s.getTransferConfig(params.FromChain.IsTest) if err != nil { return false, createBridgeCellerErrorResponse(err) } if transferConfig.Err != nil { return false, createBridgeCellerErrorResponse(errors.New(transferConfig.Err.Msg)) } var fromAvailable *cbridge.Chain var toAvailable *cbridge.Chain for _, chain := range transferConfig.Chains { if uint64(chain.GetId()) == params.FromChain.ChainID && chain.GasTokenSymbol == EthSymbol { fromAvailable = chain } if uint64(chain.GetId()) == params.ToChain.ChainID && chain.GasTokenSymbol == EthSymbol { toAvailable = chain } } if fromAvailable == nil || toAvailable == nil { return false, nil } found := false if _, ok := transferConfig.ChainToken[fromAvailable.GetId()]; !ok { return false, nil } for _, tokenInfo := range transferConfig.ChainToken[fromAvailable.GetId()].Token { if tokenInfo.Token.Symbol == params.FromToken.Symbol { found = true break } } if !found { return false, nil } found = false for _, tokenInfo := range transferConfig.ChainToken[toAvailable.GetId()].Token { if tokenInfo.Token.Symbol == params.FromToken.Symbol { found = true break } } if !found { return false, nil } return true, nil } func (s *CelerBridgeProcessor) CalculateFees(params ProcessorInputParams) (*big.Int, *big.Int, error) { amt, err := s.estimateAmt(params.FromChain, params.ToChain, params.AmountIn, params.FromToken.Symbol) if err != nil { return nil, nil, createBridgeCellerErrorResponse(err) } baseFee, ok := new(big.Int).SetString(amt.BaseFee, 10) if !ok { return nil, nil, ErrFailedToParseBaseFee } percFee, ok := new(big.Int).SetString(amt.PercFee, 10) if !ok { return nil, nil, ErrFailedToParsePercentageFee } return ZeroBigIntValue, new(big.Int).Add(baseFee, percFee), nil } func (c *CelerBridgeProcessor) PackTxInputData(params ProcessorInputParams) ([]byte, error) { abi, err := abi.JSON(strings.NewReader(celer.CelerABI)) if err != nil { return []byte{}, createBridgeCellerErrorResponse(err) } if params.FromToken.IsNative() { return abi.Pack("sendNative", params.ToAddr, params.AmountIn, params.ToChain.ChainID, uint64(time.Now().UnixMilli()), maxSlippage, ) } else { return abi.Pack("send", params.ToAddr, params.FromToken.Address, params.AmountIn, params.ToChain.ChainID, uint64(time.Now().UnixMilli()), maxSlippage, ) } } func (s *CelerBridgeProcessor) EstimateGas(params ProcessorInputParams) (uint64, error) { if params.TestsMode { if params.TestEstimationMap != nil { if val, ok := params.TestEstimationMap[s.Name()]; ok { return val, nil } } return 0, ErrNoEstimationFound } value := new(big.Int) input, err := s.PackTxInputData(params) if err != nil { return 0, createBridgeCellerErrorResponse(err) } contractAddress, err := s.GetContractAddress(params) if err != nil { return 0, createBridgeCellerErrorResponse(err) } ethClient, err := s.rpcClient.EthClient(params.FromChain.ChainID) if err != nil { return 0, createBridgeCellerErrorResponse(err) } ctx := context.Background() msg := ethereum.CallMsg{ From: params.FromAddr, To: &contractAddress, Value: value, Data: input, } estimation, err := ethClient.EstimateGas(ctx, msg) if err != nil { if !params.FromToken.IsNative() { // TODO: this is a temporary solution until we find a better way to estimate the gas // hardcoding the estimation for other than ETH, cause we cannot get a proper estimation without having an approval placed first // this is an error we're facing otherwise: `execution reverted: ERC20: transfer amount exceeds allowance` estimation = 350000 } else { return 0, createBridgeCellerErrorResponse(err) } } increasedEstimation := float64(estimation) * IncreaseEstimatedGasFactor return uint64(increasedEstimation), nil } func (s *CelerBridgeProcessor) GetContractAddress(params ProcessorInputParams) (common.Address, error) { transferConfig, err := s.getTransferConfig(params.FromChain.IsTest) if err != nil { return common.Address{}, createBridgeCellerErrorResponse(err) } if transferConfig.Err != nil { return common.Address{}, createBridgeCellerErrorResponse(errors.New(transferConfig.Err.Msg)) } for _, chain := range transferConfig.Chains { if uint64(chain.Id) == params.FromChain.ChainID { return common.HexToAddress(chain.ContractAddr), nil } } return common.Address{}, ErrContractNotFound } func (s *CelerBridgeProcessor) sendOrBuild(sendArgs *MultipathProcessorTxArgs, signerFn bind.SignerFn, lastUsedNonce int64) (*ethTypes.Transaction, error) { fromChain := s.rpcClient.NetworkManager.Find(sendArgs.ChainID) if fromChain == nil { return nil, ErrNetworkNotFound } token := s.tokenManager.FindToken(fromChain, sendArgs.CbridgeTx.Symbol) if token == nil { return nil, ErrTokenNotFound } addrs, err := s.GetContractAddress(ProcessorInputParams{ FromChain: fromChain, }) if err != nil { return nil, createBridgeCellerErrorResponse(err) } backend, err := s.rpcClient.EthClient(sendArgs.ChainID) if err != nil { return nil, createBridgeCellerErrorResponse(err) } contract, err := celer.NewCeler(addrs, backend) if err != nil { return nil, createBridgeCellerErrorResponse(err) } if lastUsedNonce >= 0 { lastUsedNonceHexUtil := hexutil.Uint64(uint64(lastUsedNonce) + 1) sendArgs.CbridgeTx.Nonce = &lastUsedNonceHexUtil } var tx *ethTypes.Transaction txOpts := sendArgs.CbridgeTx.ToTransactOpts(signerFn) if token.IsNative() { tx, err = contract.SendNative( txOpts, sendArgs.CbridgeTx.Recipient, (*big.Int)(sendArgs.CbridgeTx.Amount), sendArgs.CbridgeTx.ChainID, uint64(time.Now().UnixMilli()), maxSlippage, ) } else { tx, err = contract.Send( txOpts, sendArgs.CbridgeTx.Recipient, token.Address, (*big.Int)(sendArgs.CbridgeTx.Amount), sendArgs.CbridgeTx.ChainID, uint64(time.Now().UnixMilli()), maxSlippage, ) } if err != nil { return tx, createBridgeCellerErrorResponse(err) } err = s.transactor.StoreAndTrackPendingTx(txOpts.From, sendArgs.CbridgeTx.Symbol, sendArgs.ChainID, sendArgs.CbridgeTx.MultiTransactionID, tx) if err != nil { return tx, createBridgeCellerErrorResponse(err) } return tx, nil } func (s *CelerBridgeProcessor) Send(sendArgs *MultipathProcessorTxArgs, lastUsedNonce int64, verifiedAccount *account.SelectedExtKey) (types.Hash, uint64, error) { tx, err := s.sendOrBuild(sendArgs, getSigner(sendArgs.ChainID, sendArgs.CbridgeTx.From, verifiedAccount), lastUsedNonce) if err != nil { return types.HexToHash(""), 0, createBridgeCellerErrorResponse(err) } return types.Hash(tx.Hash()), tx.Nonce(), nil } func (s *CelerBridgeProcessor) BuildTransaction(sendArgs *MultipathProcessorTxArgs, lastUsedNonce int64) (*ethTypes.Transaction, uint64, error) { tx, err := s.sendOrBuild(sendArgs, nil, lastUsedNonce) return tx, tx.Nonce(), err } func (s *CelerBridgeProcessor) CalculateAmountOut(params ProcessorInputParams) (*big.Int, error) { amt, err := s.estimateAmt(params.FromChain, params.ToChain, params.AmountIn, params.FromToken.Symbol) if err != nil { return nil, createBridgeCellerErrorResponse(err) } if amt.Err != nil { return nil, createBridgeCellerErrorResponse(err) } amountOut, _ := new(big.Int).SetString(amt.EqValueTokenAmt, 10) return amountOut, nil }