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