645 lines
21 KiB
Go
645 lines
21 KiB
Go
package router
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import (
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"context"
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"errors"
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"math"
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"math/big"
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"sort"
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"sync"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/common/hexutil"
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"github.com/status-im/status-go/params"
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"github.com/status-im/status-go/services/ens"
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"github.com/status-im/status-go/services/wallet/async"
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walletCommon "github.com/status-im/status-go/services/wallet/common"
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"github.com/status-im/status-go/services/wallet/router/pathprocessor"
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walletToken "github.com/status-im/status-go/services/wallet/token"
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)
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var (
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supportedNetworks = map[uint64]bool{
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walletCommon.EthereumMainnet: true,
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walletCommon.OptimismMainnet: true,
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walletCommon.ArbitrumMainnet: true,
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}
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supportedTestNetworks = map[uint64]bool{
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walletCommon.EthereumSepolia: true,
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walletCommon.OptimismSepolia: true,
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walletCommon.ArbitrumSepolia: true,
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}
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)
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type RouteInputParams struct {
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SendType SendType `json:"sendType" validate:"required"`
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AddrFrom common.Address `json:"addrFrom" validate:"required"`
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AddrTo common.Address `json:"addrTo" validate:"required"`
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AmountIn *hexutil.Big `json:"amountIn" validate:"required"`
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AmountOut *hexutil.Big `json:"amountOut"`
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TokenID string `json:"tokenID" validate:"required"`
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ToTokenID string `json:"toTokenID"`
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DisabledFromChainIDs []uint64 `json:"disabledFromChainIDs"`
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DisabledToChaindIDs []uint64 `json:"disabledToChaindIDs"`
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PreferedChainIDs []uint64 `json:"preferedChainIDs"`
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GasFeeMode GasFeeMode `json:"gasFeeMode" validate:"required"`
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FromLockedAmount map[uint64]*hexutil.Big `json:"fromLockedAmount"`
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TestnetMode bool `json:"testnetMode"`
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// For send types like EnsRegister, EnsRelease, EnsSetPubKey, StickersBuy
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Username string `json:"username"`
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PublicKey string `json:"publicKey"`
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PackID *hexutil.Big `json:"packID"`
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}
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type PathV2 struct {
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ProcessorName string
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FromChain *params.Network // Source chain
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ToChain *params.Network // Destination chain
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FromToken *walletToken.Token // Token on the source chain
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AmountIn *hexutil.Big // Amount that will be sent from the source chain
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AmountInLocked bool // Is the amount locked
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AmountOut *hexutil.Big // Amount that will be received on the destination chain
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SuggestedPriorityFees *PriorityFees // Suggested priority fees for the transaction
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TxBaseFee *hexutil.Big // Base fee for the transaction
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TxPriorityFee *hexutil.Big // Priority fee for the transaction, by default we're using the Medium priority fee
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TxGasAmount uint64 // Gas used for the transaction
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TxBonderFees *hexutil.Big // Bonder fees for the transaction - used for Hop bridge
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TxTokenFees *hexutil.Big // Token fees for the transaction - used for bridges (represent the difference between the amount in and the amount out)
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TxL1Fee *hexutil.Big // L1 fee for the transaction - used for for transactions placed on L2 chains
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ApprovalRequired bool // Is approval required for the transaction
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ApprovalAmountRequired *hexutil.Big // Amount required for the approval transaction
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ApprovalContractAddress *common.Address // Address of the contract that needs to be approved
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ApprovalBaseFee *hexutil.Big // Base fee for the approval transaction
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ApprovalPriorityFee *hexutil.Big // Priority fee for the approval transaction
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ApprovalGasAmount uint64 // Gas used for the approval transaction
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ApprovalL1Fee *hexutil.Big // L1 fee for the approval transaction - used for for transactions placed on L2 chains
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EstimatedTime TransactionEstimation
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requiredTokenBalance *big.Int
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requiredNativeBalance *big.Int
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}
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func (p *PathV2) Equal(o *PathV2) bool {
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return p.FromChain.ChainID == o.FromChain.ChainID && p.ToChain.ChainID == o.ToChain.ChainID
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}
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type SuggestedRoutesV2 struct {
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Best []*PathV2
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Candidates []*PathV2
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TokenPrice float64
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NativeChainTokenPrice float64
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}
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type GraphV2 = []*NodeV2
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type NodeV2 struct {
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Path *PathV2
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Children GraphV2
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}
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func newSuggestedRoutesV2(
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amountIn *big.Int,
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candidates []*PathV2,
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fromLockedAmount map[uint64]*hexutil.Big,
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tokenPrice float64,
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nativeChainTokenPrice float64,
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) *SuggestedRoutesV2 {
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suggestedRoutes := &SuggestedRoutesV2{
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Candidates: candidates,
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Best: candidates,
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TokenPrice: tokenPrice,
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NativeChainTokenPrice: nativeChainTokenPrice,
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}
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if len(candidates) == 0 {
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return suggestedRoutes
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}
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node := &NodeV2{
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Path: nil,
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Children: buildGraphV2(amountIn, candidates, 0, []uint64{}),
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}
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routes := node.buildAllRoutesV2()
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routes = filterRoutesV2(routes, amountIn, fromLockedAmount)
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best := findBestV2(routes, tokenPrice, nativeChainTokenPrice)
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if len(best) > 0 {
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sort.Slice(best, func(i, j int) bool {
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return best[i].AmountInLocked
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})
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rest := new(big.Int).Set(amountIn)
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for _, path := range best {
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diff := new(big.Int).Sub(rest, path.AmountIn.ToInt())
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if diff.Cmp(pathprocessor.ZeroBigIntValue) >= 0 {
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path.AmountIn = (*hexutil.Big)(path.AmountIn.ToInt())
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} else {
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path.AmountIn = (*hexutil.Big)(new(big.Int).Set(rest))
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}
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rest.Sub(rest, path.AmountIn.ToInt())
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}
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}
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suggestedRoutes.Best = best
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return suggestedRoutes
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}
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func newNodeV2(path *PathV2) *NodeV2 {
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return &NodeV2{Path: path, Children: make(GraphV2, 0)}
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}
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func buildGraphV2(AmountIn *big.Int, routes []*PathV2, level int, sourceChainIDs []uint64) GraphV2 {
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graph := make(GraphV2, 0)
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for _, route := range routes {
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found := false
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for _, chainID := range sourceChainIDs {
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if chainID == route.FromChain.ChainID {
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found = true
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break
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}
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}
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if found {
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continue
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}
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node := newNodeV2(route)
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newRoutes := make([]*PathV2, 0)
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for _, r := range routes {
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if route.Equal(r) {
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continue
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}
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newRoutes = append(newRoutes, r)
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}
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newAmountIn := new(big.Int).Sub(AmountIn, route.AmountIn.ToInt())
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if newAmountIn.Sign() > 0 {
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newSourceChainIDs := make([]uint64, len(sourceChainIDs))
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copy(newSourceChainIDs, sourceChainIDs)
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newSourceChainIDs = append(newSourceChainIDs, route.FromChain.ChainID)
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node.Children = buildGraphV2(newAmountIn, newRoutes, level+1, newSourceChainIDs)
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if len(node.Children) == 0 {
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continue
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}
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}
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graph = append(graph, node)
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}
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return graph
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}
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func (n NodeV2) buildAllRoutesV2() [][]*PathV2 {
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res := make([][]*PathV2, 0)
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if len(n.Children) == 0 && n.Path != nil {
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res = append(res, []*PathV2{n.Path})
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}
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for _, node := range n.Children {
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for _, route := range node.buildAllRoutesV2() {
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extendedRoute := route
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if n.Path != nil {
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extendedRoute = append([]*PathV2{n.Path}, route...)
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}
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res = append(res, extendedRoute)
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}
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}
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return res
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}
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func findBestV2(routes [][]*PathV2, tokenPrice float64, nativeChainTokenPrice float64) []*PathV2 {
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var best []*PathV2
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bestCost := big.NewFloat(math.Inf(1))
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for _, route := range routes {
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currentCost := big.NewFloat(0)
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for _, path := range route {
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tokenDenominator := big.NewFloat(math.Pow(10, float64(path.FromToken.Decimals)))
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path.requiredTokenBalance = new(big.Int).Set(path.AmountIn.ToInt())
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path.requiredNativeBalance = big.NewInt(0)
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// ecaluate the cost of the path
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pathCost := big.NewFloat(0)
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nativeTokenPrice := new(big.Float).SetFloat64(nativeChainTokenPrice)
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if path.TxBaseFee != nil && path.TxPriorityFee != nil {
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feePerGas := new(big.Int).Add(path.TxBaseFee.ToInt(), path.TxPriorityFee.ToInt())
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txFeeInWei := new(big.Int).Mul(feePerGas, big.NewInt(int64(path.TxGasAmount)))
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txFeeInEth := gweiToEth(weiToGwei(txFeeInWei))
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path.requiredNativeBalance.Add(path.requiredNativeBalance, txFeeInWei)
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pathCost = new(big.Float).Mul(txFeeInEth, nativeTokenPrice)
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}
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if path.TxBonderFees != nil && path.TxBonderFees.ToInt().Cmp(pathprocessor.ZeroBigIntValue) > 0 {
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path.requiredTokenBalance.Add(path.requiredTokenBalance, path.TxBonderFees.ToInt())
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pathCost.Add(pathCost, new(big.Float).Mul(
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new(big.Float).Quo(new(big.Float).SetInt(path.TxBonderFees.ToInt()), tokenDenominator),
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new(big.Float).SetFloat64(tokenPrice)))
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}
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if path.TxL1Fee != nil && path.TxL1Fee.ToInt().Cmp(pathprocessor.ZeroBigIntValue) > 0 {
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l1FeeInWei := path.TxL1Fee.ToInt()
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l1FeeInEth := gweiToEth(weiToGwei(l1FeeInWei))
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path.requiredNativeBalance.Add(path.requiredNativeBalance, l1FeeInWei)
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pathCost.Add(pathCost, new(big.Float).Mul(l1FeeInEth, nativeTokenPrice))
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}
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if path.TxTokenFees != nil && path.TxTokenFees.ToInt().Cmp(pathprocessor.ZeroBigIntValue) > 0 && path.FromToken != nil {
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path.requiredTokenBalance.Add(path.requiredTokenBalance, path.TxTokenFees.ToInt())
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pathCost.Add(pathCost, new(big.Float).Mul(
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new(big.Float).Quo(new(big.Float).SetInt(path.TxTokenFees.ToInt()), tokenDenominator),
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new(big.Float).SetFloat64(tokenPrice)))
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}
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if path.ApprovalRequired {
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if path.ApprovalBaseFee != nil && path.ApprovalPriorityFee != nil {
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feePerGas := new(big.Int).Add(path.ApprovalBaseFee.ToInt(), path.ApprovalPriorityFee.ToInt())
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txFeeInWei := new(big.Int).Mul(feePerGas, big.NewInt(int64(path.ApprovalGasAmount)))
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txFeeInEth := gweiToEth(weiToGwei(txFeeInWei))
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path.requiredNativeBalance.Add(path.requiredNativeBalance, txFeeInWei)
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pathCost.Add(pathCost, new(big.Float).Mul(txFeeInEth, nativeTokenPrice))
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}
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if path.ApprovalL1Fee != nil {
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l1FeeInWei := path.ApprovalL1Fee.ToInt()
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l1FeeInEth := gweiToEth(weiToGwei(l1FeeInWei))
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path.requiredNativeBalance.Add(path.requiredNativeBalance, l1FeeInWei)
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pathCost.Add(pathCost, new(big.Float).Mul(l1FeeInEth, nativeTokenPrice))
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}
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}
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currentCost = new(big.Float).Add(currentCost, pathCost)
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}
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if currentCost.Cmp(bestCost) == -1 {
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best = route
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bestCost = currentCost
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}
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}
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return best
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}
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func validateInputData(input *RouteInputParams) error {
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if input.SendType == ENSRegister {
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if input.Username == "" || input.PublicKey == "" {
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return errors.New("username and public key are required for ENSRegister")
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}
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if input.TestnetMode {
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if input.TokenID != pathprocessor.SttSymbol {
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return errors.New("only STT is supported for ENSRegister on testnet")
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}
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} else {
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if input.TokenID != pathprocessor.SntSymbol {
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return errors.New("only SNT is supported for ENSRegister")
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}
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}
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return nil
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}
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if input.SendType == ENSRelease {
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if input.Username == "" {
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return errors.New("username is required for ENSRelease")
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}
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}
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if input.SendType == ENSSetPubKey {
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if input.Username == "" || input.PublicKey == "" || ens.ValidateENSUsername(input.Username) != nil {
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return errors.New("username and public key are required for ENSSetPubKey")
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}
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}
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if input.SendType == StickersBuy {
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if input.PackID == nil {
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return errors.New("packID is required for StickersBuy")
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}
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}
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if input.SendType == Swap {
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if input.ToTokenID == "" {
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return errors.New("toTokenID is required for Swap")
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}
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if input.TokenID == input.ToTokenID {
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return errors.New("tokenID and toTokenID must be different")
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}
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// we can do this check, cause AmountIn is required in `RouteInputParams`
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if input.AmountIn.ToInt().Cmp(pathprocessor.ZeroBigIntValue) > 0 &&
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input.AmountOut != nil &&
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input.AmountOut.ToInt().Cmp(pathprocessor.ZeroBigIntValue) > 0 {
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return errors.New("only one of amountIn or amountOut can be set")
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}
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if input.AmountIn.ToInt().Sign() < 0 {
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return errors.New("amountIn must be positive")
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}
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if input.AmountOut != nil && input.AmountOut.ToInt().Sign() < 0 {
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return errors.New("amountOut must be positive")
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}
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}
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if input.FromLockedAmount != nil && len(input.FromLockedAmount) > 0 {
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for chainID, amount := range input.FromLockedAmount {
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if input.TestnetMode {
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if !supportedTestNetworks[chainID] {
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return errors.New("locked amount is not supported for the selected network")
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}
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} else {
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if !supportedNetworks[chainID] {
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return errors.New("locked amount is not supported for the selected network")
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}
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}
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if amount == nil || amount.ToInt().Sign() < 0 {
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return errors.New("locked amount must be positive")
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}
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}
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}
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return nil
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}
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func (r *Router) SuggestedRoutesV2(ctx context.Context, input *RouteInputParams) (*SuggestedRoutesV2, error) {
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err := validateInputData(input)
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if err != nil {
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return nil, err
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}
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networks, err := r.rpcClient.NetworkManager.Get(false)
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if err != nil {
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return nil, err
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}
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var (
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group = async.NewAtomicGroup(ctx)
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mu sync.Mutex
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candidates = make([]*PathV2, 0)
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)
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for networkIdx := range networks {
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network := networks[networkIdx]
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if network.IsTest != input.TestnetMode {
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continue
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}
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if containsNetworkChainID(network, input.DisabledFromChainIDs) {
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continue
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}
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if !input.SendType.isAvailableFor(network) {
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continue
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}
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var (
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token *walletToken.Token
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toToken *walletToken.Token
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)
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token = input.SendType.FindToken(r.tokenManager, r.collectiblesService, input.AddrFrom, network, input.TokenID)
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if token == nil {
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continue
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}
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if input.SendType == Swap {
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toToken = input.SendType.FindToken(r.tokenManager, r.collectiblesService, common.Address{}, network, input.ToTokenID)
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}
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amountLocked := false
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amountToSend := input.AmountIn.ToInt()
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if lockedAmount, ok := input.FromLockedAmount[network.ChainID]; ok {
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amountToSend = lockedAmount.ToInt()
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amountLocked = true
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}
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if len(input.FromLockedAmount) > 0 {
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for chainID, lockedAmount := range input.FromLockedAmount {
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if chainID == network.ChainID {
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continue
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}
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amountToSend = new(big.Int).Sub(amountToSend, lockedAmount.ToInt())
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}
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}
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group.Add(func(c context.Context) error {
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client, err := r.rpcClient.EthClient(network.ChainID)
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if err != nil {
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return err
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}
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for _, pProcessor := range r.pathProcessors {
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// With the condition below we're eliminating `Swap` as potential path that can participate in calculating the best route
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// once we decide to inlcude `Swap` in the calculation we need to update `canUseProcessor` function.
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// This also applies to including another (Celer) bridge in the calculation.
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// TODO:
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// this algorithm, includeing finding the best route, has to be updated to include more bridges and one (for now) or more swap options
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// it means that candidates should not be treated linearly, but improve the logic to have multiple routes with different processors of the same type.
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// Example:
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// Routes for sending SNT from Ethereum to Optimism can be:
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// 1. Swap SNT(mainnet) to ETH(mainnet); then bridge via Hop ETH(mainnet) to ETH(opt); then Swap ETH(opt) to SNT(opt); then send SNT (opt) to the destination
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// 2. Swap SNT(mainnet) to ETH(mainnet); then bridge via Celer ETH(mainnet) to ETH(opt); then Swap ETH(opt) to SNT(opt); then send SNT (opt) to the destination
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// 3. Swap SNT(mainnet) to USDC(mainnet); then bridge via Hop USDC(mainnet) to USDC(opt); then Swap USDC(opt) to SNT(opt); then send SNT (opt) to the destination
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// 4. Swap SNT(mainnet) to USDC(mainnet); then bridge via Celer USDC(mainnet) to USDC(opt); then Swap USDC(opt) to SNT(opt); then send SNT (opt) to the destination
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// 5. ...
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// 6. ...
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//
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// With the current routing algorithm atm we're not able to generate all possible routes.
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if !input.SendType.canUseProcessor(pProcessor) {
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continue
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}
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for _, dest := range networks {
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if dest.IsTest != input.TestnetMode {
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continue
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}
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if !input.SendType.isAvailableFor(network) {
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continue
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}
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if !input.SendType.isAvailableBetween(network, dest) {
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continue
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}
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if len(input.PreferedChainIDs) > 0 && !containsNetworkChainID(dest, input.PreferedChainIDs) {
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continue
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}
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if containsNetworkChainID(dest, input.DisabledToChaindIDs) {
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continue
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}
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processorInputParams := pathprocessor.ProcessorInputParams{
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FromChain: network,
|
|
ToChain: dest,
|
|
FromToken: token,
|
|
ToToken: toToken,
|
|
ToAddr: input.AddrTo,
|
|
FromAddr: input.AddrFrom,
|
|
AmountIn: amountToSend,
|
|
AmountOut: input.AmountOut.ToInt(),
|
|
|
|
Username: input.Username,
|
|
PublicKey: input.PublicKey,
|
|
PackID: input.PackID.ToInt(),
|
|
}
|
|
|
|
can, err := pProcessor.AvailableFor(processorInputParams)
|
|
if err != nil || !can {
|
|
continue
|
|
}
|
|
|
|
bonderFees, tokenFees, err := pProcessor.CalculateFees(processorInputParams)
|
|
if err != nil {
|
|
continue
|
|
}
|
|
|
|
gasLimit, err := pProcessor.EstimateGas(processorInputParams)
|
|
if err != nil {
|
|
continue
|
|
}
|
|
|
|
approvalContractAddress, err := pProcessor.GetContractAddress(processorInputParams)
|
|
if err != nil {
|
|
continue
|
|
}
|
|
approvalRequired, approvalAmountRequired, approvalGasLimit, l1ApprovalFee, err := r.requireApproval(ctx, input.SendType, &approvalContractAddress, input.AddrFrom, network, token, amountToSend)
|
|
if err != nil {
|
|
continue
|
|
}
|
|
|
|
var l1FeeWei uint64
|
|
if input.SendType.needL1Fee() {
|
|
|
|
txInputData, err := pProcessor.PackTxInputData(processorInputParams)
|
|
if err != nil {
|
|
continue
|
|
}
|
|
|
|
l1FeeWei, _ = r.feesManager.GetL1Fee(ctx, network.ChainID, txInputData)
|
|
}
|
|
|
|
baseFee, err := r.feesManager.getBaseFee(ctx, client)
|
|
if err != nil {
|
|
continue
|
|
}
|
|
|
|
priorityFees, err := r.feesManager.getPriorityFees(ctx, client, baseFee)
|
|
if err != nil {
|
|
continue
|
|
}
|
|
selctedPriorityFee := priorityFees.Medium
|
|
if input.GasFeeMode == GasFeeHigh {
|
|
selctedPriorityFee = priorityFees.High
|
|
} else if input.GasFeeMode == GasFeeLow {
|
|
selctedPriorityFee = priorityFees.Low
|
|
}
|
|
|
|
amountOut, err := pProcessor.CalculateAmountOut(processorInputParams)
|
|
if err != nil {
|
|
continue
|
|
}
|
|
|
|
maxFeesPerGas := new(big.Float)
|
|
maxFeesPerGas.Add(new(big.Float).SetInt(baseFee), new(big.Float).SetInt(selctedPriorityFee))
|
|
estimatedTime := r.feesManager.TransactionEstimatedTime(ctx, network.ChainID, maxFeesPerGas)
|
|
if approvalRequired && estimatedTime < MoreThanFiveMinutes {
|
|
estimatedTime += 1
|
|
}
|
|
|
|
mu.Lock()
|
|
candidates = append(candidates, &PathV2{
|
|
ProcessorName: pProcessor.Name(),
|
|
FromChain: network,
|
|
ToChain: dest,
|
|
FromToken: token,
|
|
AmountIn: (*hexutil.Big)(amountToSend),
|
|
AmountInLocked: amountLocked,
|
|
AmountOut: (*hexutil.Big)(amountOut),
|
|
|
|
SuggestedPriorityFees: &priorityFees,
|
|
|
|
TxBaseFee: (*hexutil.Big)(baseFee),
|
|
TxPriorityFee: (*hexutil.Big)(selctedPriorityFee),
|
|
TxGasAmount: gasLimit,
|
|
TxBonderFees: (*hexutil.Big)(bonderFees),
|
|
TxTokenFees: (*hexutil.Big)(tokenFees),
|
|
TxL1Fee: (*hexutil.Big)(big.NewInt(int64(l1FeeWei))),
|
|
|
|
ApprovalRequired: approvalRequired,
|
|
ApprovalAmountRequired: (*hexutil.Big)(approvalAmountRequired),
|
|
ApprovalContractAddress: &approvalContractAddress,
|
|
ApprovalBaseFee: (*hexutil.Big)(baseFee),
|
|
ApprovalPriorityFee: (*hexutil.Big)(selctedPriorityFee),
|
|
ApprovalGasAmount: approvalGasLimit,
|
|
ApprovalL1Fee: (*hexutil.Big)(big.NewInt(int64(l1ApprovalFee))),
|
|
|
|
EstimatedTime: estimatedTime,
|
|
},
|
|
)
|
|
mu.Unlock()
|
|
}
|
|
}
|
|
return nil
|
|
})
|
|
}
|
|
|
|
group.Wait()
|
|
|
|
prices, err := input.SendType.FetchPrices(r.marketManager, input.TokenID)
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
|
|
suggestedRoutes := newSuggestedRoutesV2(input.AmountIn.ToInt(), candidates, input.FromLockedAmount, prices[input.TokenID], prices["ETH"])
|
|
|
|
// check the best route for the required balances
|
|
for _, path := range suggestedRoutes.Best {
|
|
|
|
if path.requiredTokenBalance != nil && path.requiredTokenBalance.Cmp(pathprocessor.ZeroBigIntValue) > 0 {
|
|
tokenBalance := big.NewInt(1)
|
|
if input.SendType == ERC1155Transfer {
|
|
tokenBalance, err = r.getERC1155Balance(ctx, path.FromChain, path.FromToken, input.AddrFrom)
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
} else if input.SendType != ERC721Transfer {
|
|
tokenBalance, err = r.getBalance(ctx, path.FromChain, path.FromToken, input.AddrFrom)
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
}
|
|
|
|
if tokenBalance.Cmp(path.requiredTokenBalance) == -1 {
|
|
return suggestedRoutes, errors.New("not enough token balance")
|
|
}
|
|
}
|
|
|
|
nativeToken := r.tokenManager.FindToken(path.FromChain, path.FromChain.NativeCurrencySymbol)
|
|
if nativeToken == nil {
|
|
return nil, errors.New("native token not found")
|
|
}
|
|
|
|
nativeBalance, err := r.getBalance(ctx, path.FromChain, nativeToken, input.AddrFrom)
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
|
|
if nativeBalance.Cmp(path.requiredNativeBalance) == -1 {
|
|
return suggestedRoutes, errors.New("not enough native balance")
|
|
}
|
|
}
|
|
|
|
return suggestedRoutes, nil
|
|
}
|