status-go/services/wallet/router.go

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package wallet
import (
"context"
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"errors"
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"fmt"
"math"
"math/big"
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"sort"
"sync"
"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/common/hexutil"
"github.com/status-im/status-go/eth-node/types"
"github.com/status-im/status-go/params"
"github.com/status-im/status-go/services/wallet/async"
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"github.com/status-im/status-go/services/wallet/bigint"
"github.com/status-im/status-go/services/wallet/bridge"
"github.com/status-im/status-go/services/wallet/chain"
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"github.com/status-im/status-go/services/wallet/token"
"github.com/status-im/status-go/transactions"
)
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type SendType int
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const (
Transfer SendType = iota
ENSRegister
ENSRelease
ENSSetPubKey
StickersBuy
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Bridge
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)
const EstimateUsername = "RandomUsername"
const EstimatePubKey = "0x04bb2024ce5d72e45d4a4f8589ae657ef9745855006996115a23a1af88d536cf02c0524a585fce7bfa79d6a9669af735eda6205d6c7e5b3cdc2b8ff7b2fa1f0b56"
func (s SendType) isTransfer() bool {
return s == Transfer
}
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func (s SendType) isAvailableBetween(from, to *params.Network) bool {
if s != Bridge {
return true
}
return from.ChainID != to.ChainID
}
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func (s SendType) isAvailableFor(network *params.Network) bool {
if s == Transfer {
return true
}
if network.ChainID == 1 || network.ChainID == 5 {
return true
}
return false
}
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func (s SendType) EstimateGas(service *Service, network *params.Network) uint64 {
from := types.Address(common.HexToAddress("0x5ffa75ce51c3a7ebe23bde37b5e3a0143dfbcee0"))
tx := transactions.SendTxArgs{
From: from,
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Value: (*hexutil.Big)(zero),
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}
if s == ENSRegister {
estimate, err := service.ens.API().RegisterEstimate(context.Background(), network.ChainID, tx, EstimateUsername, EstimatePubKey)
if err != nil {
return 400000
}
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return estimate
}
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if s == ENSRelease {
estimate, err := service.ens.API().ReleaseEstimate(context.Background(), network.ChainID, tx, EstimateUsername)
if err != nil {
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return 200000
}
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return estimate
}
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if s == ENSSetPubKey {
estimate, err := service.ens.API().SetPubKeyEstimate(context.Background(), network.ChainID, tx, fmt.Sprint(EstimateUsername, ".stateofus.eth"), EstimatePubKey)
if err != nil {
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return 400000
}
return estimate
}
if s == StickersBuy {
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packID := &bigint.BigInt{Int: big.NewInt(2)}
estimate, err := service.stickers.API().BuyEstimate(context.Background(), network.ChainID, from, packID)
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if err != nil {
return 400000
}
return estimate
}
return 0
}
var zero = big.NewInt(0)
type Path struct {
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BridgeName string
From *params.Network
To *params.Network
MaxAmountIn *hexutil.Big
AmountIn *hexutil.Big
AmountInLocked bool
AmountOut *hexutil.Big
GasAmount uint64
GasFees *SuggestedFees
BonderFees *hexutil.Big
TokenFees *big.Float
Cost *big.Float
EstimatedTime TransactionEstimation
}
func (p *Path) Equal(o *Path) bool {
return p.From.ChainID == o.From.ChainID && p.To.ChainID == o.To.ChainID
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}
type Graph = []*Node
type Node struct {
Path *Path
Children Graph
}
func newNode(path *Path) *Node {
return &Node{Path: path, Children: make(Graph, 0)}
}
func buildGraph(AmountIn *big.Int, routes []*Path, level int, sourceChainIDs []uint64) Graph {
graph := make(Graph, 0)
for _, route := range routes {
found := false
for _, chainID := range sourceChainIDs {
if chainID == route.From.ChainID {
found = true
break
}
}
if found {
continue
}
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node := newNode(route)
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newRoutes := make([]*Path, 0)
for _, r := range routes {
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if route.Equal(r) {
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continue
}
newRoutes = append(newRoutes, r)
}
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newAmountIn := new(big.Int).Sub(AmountIn, route.MaxAmountIn.ToInt())
if newAmountIn.Sign() > 0 {
newSourceChainIDs := make([]uint64, len(sourceChainIDs))
copy(newSourceChainIDs, sourceChainIDs)
newSourceChainIDs = append(newSourceChainIDs, route.From.ChainID)
node.Children = buildGraph(newAmountIn, newRoutes, level+1, newSourceChainIDs)
if len(node.Children) == 0 {
continue
}
}
graph = append(graph, node)
}
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return graph
}
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func (n Node) buildAllRoutes() [][]*Path {
res := make([][]*Path, 0)
if len(n.Children) == 0 && n.Path != nil {
res = append(res, []*Path{n.Path})
}
for _, node := range n.Children {
for _, route := range node.buildAllRoutes() {
extendedRoute := route
if n.Path != nil {
extendedRoute = append([]*Path{n.Path}, route...)
}
res = append(res, extendedRoute)
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}
}
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return res
}
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func filterRoutes(routes [][]*Path, amountIn *big.Int, fromLockedAmount map[uint64]*hexutil.Big) [][]*Path {
if len(fromLockedAmount) == 0 {
return routes
}
filteredRoutesLevel1 := make([][]*Path, 0)
for _, route := range routes {
routeOk := true
fromIncluded := make(map[uint64]bool)
fromExcluded := make(map[uint64]bool)
for chainID, amount := range fromLockedAmount {
if amount.ToInt().Cmp(zero) == 0 {
fromExcluded[chainID] = false
} else {
fromIncluded[chainID] = false
}
}
for _, path := range route {
if _, ok := fromExcluded[path.From.ChainID]; ok {
routeOk = false
break
}
if _, ok := fromIncluded[path.From.ChainID]; ok {
fromIncluded[path.From.ChainID] = true
}
}
for _, value := range fromIncluded {
if !value {
routeOk = false
break
}
}
if routeOk {
filteredRoutesLevel1 = append(filteredRoutesLevel1, route)
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}
}
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filteredRoutesLevel2 := make([][]*Path, 0)
for _, route := range filteredRoutesLevel1 {
routeOk := true
for _, path := range route {
if amount, ok := fromLockedAmount[path.From.ChainID]; ok {
requiredAmountIn := new(big.Int).Sub(amountIn, amount.ToInt())
restAmountIn := big.NewInt(0)
for _, otherPath := range route {
if path.Equal(otherPath) {
continue
}
restAmountIn = new(big.Int).Add(otherPath.MaxAmountIn.ToInt(), restAmountIn)
}
if restAmountIn.Cmp(requiredAmountIn) >= 0 {
path.AmountIn = amount
path.AmountInLocked = true
} else {
routeOk = false
break
}
}
}
if routeOk {
filteredRoutesLevel2 = append(filteredRoutesLevel2, route)
}
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}
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return filteredRoutesLevel2
}
func findBest(routes [][]*Path) []*Path {
var best []*Path
bestCost := big.NewFloat(math.Inf(1))
for _, route := range routes {
currentCost := big.NewFloat(0)
for _, path := range route {
currentCost = new(big.Float).Add(currentCost, path.Cost)
}
if currentCost.Cmp(bestCost) == -1 {
best = route
bestCost = currentCost
}
}
return best
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}
type SuggestedRoutes struct {
Best []*Path
Candidates []*Path
TokenPrice float64
NativeChainTokenPrice float64
}
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func newSuggestedRoutes(
amountIn *big.Int,
candidates []*Path,
fromLockedAmount map[uint64]*hexutil.Big,
) *SuggestedRoutes {
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if len(candidates) == 0 {
return &SuggestedRoutes{
Candidates: candidates,
Best: candidates,
}
}
node := &Node{
Path: nil,
Children: buildGraph(amountIn, candidates, 0, []uint64{}),
}
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routes := node.buildAllRoutes()
routes = filterRoutes(routes, amountIn, fromLockedAmount)
best := findBest(routes)
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if len(best) > 0 {
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sort.Slice(best, func(i, j int) bool {
return best[i].AmountInLocked
})
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rest := new(big.Int).Set(amountIn)
for _, path := range best {
diff := new(big.Int).Sub(rest, path.MaxAmountIn.ToInt())
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if diff.Cmp(zero) >= 0 {
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path.AmountIn = (*hexutil.Big)(path.MaxAmountIn.ToInt())
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} else {
path.AmountIn = (*hexutil.Big)(new(big.Int).Set(rest))
}
rest.Sub(rest, path.AmountIn.ToInt())
}
}
return &SuggestedRoutes{
Candidates: candidates,
Best: best,
}
}
func NewRouter(s *Service) *Router {
bridges := make(map[string]bridge.Bridge)
simple := bridge.NewSimpleBridge(s.transactor)
hop := bridge.NewHopBridge(s.rpcClient)
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cbridge := bridge.NewCbridge(s.rpcClient, s.tokenManager)
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bridges[simple.Name()] = simple
bridges[hop.Name()] = hop
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bridges[cbridge.Name()] = cbridge
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return &Router{s, bridges}
}
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func containsNetworkChainID(network *params.Network, chainIDs []uint64) bool {
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for _, chainID := range chainIDs {
if chainID == network.ChainID {
return true
}
}
return false
}
type Router struct {
s *Service
bridges map[string]bridge.Bridge
}
func (r *Router) getBalance(ctx context.Context, network *params.Network, token *token.Token, account common.Address) (*big.Int, error) {
clients, err := chain.NewClients(r.s.rpcClient, []uint64{network.ChainID})
if err != nil {
return nil, err
}
return r.s.tokenManager.GetBalance(ctx, clients[0], account, token.Address)
}
func (r *Router) estimateTimes(ctx context.Context, network *params.Network, gasFees *SuggestedFees, gasFeeMode GasFeeMode) TransactionEstimation {
if gasFeeMode == GasFeeLow {
return r.s.feesManager.transactionEstimatedTime(ctx, network.ChainID, gasFees.MaxFeePerGasLow)
}
if gasFeeMode == GasFeeMedium {
return r.s.feesManager.transactionEstimatedTime(ctx, network.ChainID, gasFees.MaxFeePerGasMedium)
}
return r.s.feesManager.transactionEstimatedTime(ctx, network.ChainID, gasFees.MaxFeePerGasHigh)
}
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func (r *Router) suggestedRoutes(
ctx context.Context,
sendType SendType,
account common.Address,
amountIn *big.Int,
tokenSymbol string,
disabledFromChainIDs,
disabledToChaindIDs,
preferedChainIDs []uint64,
gasFeeMode GasFeeMode,
fromLockedAmount map[uint64]*hexutil.Big,
) (*SuggestedRoutes, error) {
areTestNetworksEnabled, err := r.s.accountsDB.GetTestNetworksEnabled()
if err != nil {
return nil, err
}
networks, err := r.s.rpcClient.NetworkManager.Get(false)
if err != nil {
return nil, err
}
pricesMap, err := fetchCryptoComparePrices([]string{"ETH", tokenSymbol}, []string{"USD"})
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if err != nil {
return nil, err
}
prices := make(map[string]float64, 0)
for symbol, pricePerCurrency := range pricesMap {
prices[symbol] = pricePerCurrency["USD"]
}
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var (
group = async.NewAtomicGroup(ctx)
mu sync.Mutex
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candidates = make([]*Path, 0)
)
for networkIdx := range networks {
network := networks[networkIdx]
if network.IsTest != areTestNetworksEnabled {
continue
}
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if containsNetworkChainID(network, disabledFromChainIDs) {
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continue
}
if !sendType.isAvailableFor(network) {
continue
}
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token := r.s.tokenManager.FindToken(network, tokenSymbol)
if token == nil {
continue
}
nativeToken := r.s.tokenManager.FindToken(network, network.NativeCurrencySymbol)
if nativeToken == nil {
continue
}
group.Add(func(c context.Context) error {
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gasFees, err := r.s.feesManager.suggestedFees(ctx, network.ChainID)
if err != nil {
return err
}
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balance, err := r.getBalance(ctx, network, token, account)
if err != nil {
return err
}
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maxAmountIn := (*hexutil.Big)(balance)
if amount, ok := fromLockedAmount[network.ChainID]; ok {
if amount.ToInt().Cmp(balance) == 1 {
return errors.New("locked amount cannot be bigger than balance")
}
maxAmountIn = amount
}
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nativeBalance, err := r.getBalance(ctx, network, nativeToken, account)
if err != nil {
return err
}
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maxFees := gasFees.feeFor(gasFeeMode)
estimatedTime := r.s.feesManager.transactionEstimatedTime(ctx, network.ChainID, maxFees)
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for _, bridge := range r.bridges {
for _, dest := range networks {
if dest.IsTest != areTestNetworksEnabled {
continue
}
if !sendType.isAvailableFor(network) {
continue
}
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if !sendType.isAvailableBetween(network, dest) {
continue
}
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if len(preferedChainIDs) > 0 && !containsNetworkChainID(dest, preferedChainIDs) {
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continue
}
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if containsNetworkChainID(dest, disabledToChaindIDs) {
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continue
}
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can, err := bridge.Can(network, dest, token, maxAmountIn.ToInt())
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if err != nil || !can {
continue
}
bonderFees, tokenFees, err := bridge.CalculateFees(network, dest, token, amountIn, prices["ETH"], prices[tokenSymbol], gasFees.GasPrice)
if err != nil {
continue
}
gasLimit := uint64(0)
if sendType.isTransfer() {
gasLimit, err = bridge.EstimateGas(network, dest, token, amountIn)
if err != nil {
continue
}
} else {
gasLimit = sendType.EstimateGas(r.s, network)
}
requiredNativeBalance := new(big.Int).Mul(gweiToWei(maxFees), big.NewInt(int64(gasLimit)))
if nativeBalance.Cmp(requiredNativeBalance) <= 0 {
continue
}
gasCost := new(big.Float)
gasCost.Mul(
new(big.Float).Mul(gweiToEth(maxFees), big.NewFloat((float64(gasLimit)))),
big.NewFloat(prices["ETH"]),
)
tokenFeesAsFloat := new(big.Float).Quo(
new(big.Float).SetInt(tokenFees),
big.NewFloat(math.Pow(10, float64(token.Decimals))),
)
tokenCost := new(big.Float)
tokenCost.Mul(tokenFeesAsFloat, big.NewFloat(prices[tokenSymbol]))
cost := new(big.Float)
cost.Add(tokenCost, gasCost)
mu.Lock()
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candidates = append(candidates, &Path{
BridgeName: bridge.Name(),
From: network,
To: dest,
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MaxAmountIn: maxAmountIn,
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AmountIn: (*hexutil.Big)(zero),
AmountOut: (*hexutil.Big)(zero),
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GasAmount: gasLimit,
GasFees: gasFees,
BonderFees: (*hexutil.Big)(bonderFees),
TokenFees: tokenFeesAsFloat,
Cost: cost,
EstimatedTime: estimatedTime,
})
mu.Unlock()
}
}
return nil
})
}
group.Wait()
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suggestedRoutes := newSuggestedRoutes(amountIn, candidates, fromLockedAmount)
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suggestedRoutes.TokenPrice = prices[tokenSymbol]
suggestedRoutes.NativeChainTokenPrice = prices["ETH"]
for _, path := range suggestedRoutes.Best {
amountOut, err := r.bridges[path.BridgeName].CalculateAmountOut(path.From, path.To, (*big.Int)(path.AmountIn), tokenSymbol)
if err != nil {
continue
}
path.AmountOut = (*hexutil.Big)(amountOut)
}
return suggestedRoutes, nil
}