package token import ( "context" "database/sql" "math/big" "strconv" "strings" "sync" "time" "github.com/ethereum/go-ethereum/accounts/abi/bind" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/common/hexutil" "github.com/ethereum/go-ethereum/log" "github.com/status-im/status-go/contracts" "github.com/status-im/status-go/contracts/community-tokens/assets" "github.com/status-im/status-go/contracts/ethscan" "github.com/status-im/status-go/contracts/ierc20" eth_node_types "github.com/status-im/status-go/eth-node/types" "github.com/status-im/status-go/params" "github.com/status-im/status-go/rpc" "github.com/status-im/status-go/rpc/chain" "github.com/status-im/status-go/rpc/network" "github.com/status-im/status-go/services/utils" "github.com/status-im/status-go/services/wallet/async" ) var requestTimeout = 20 * time.Second var nativeChainAddress = common.HexToAddress("0x") type Token struct { Address common.Address `json:"address"` Name string `json:"name"` Symbol string `json:"symbol"` // Decimals defines how divisible the token is. For example, 0 would be // indivisible, whereas 18 would allow very small amounts of the token // to be traded. Decimals uint `json:"decimals"` ChainID uint64 `json:"chainId"` // PegSymbol indicates that the token is pegged to some fiat currency, using the // ISO 4217 alphabetic code. For example, an empty string means it is not // pegged, while "USD" means it's pegged to the United States Dollar. PegSymbol string `json:"pegSymbol"` CommunityID *string `json:"communityId,omitempty"` Verified bool `json:"verified"` TokenListID string `json:"tokenListId"` } func (t *Token) IsNative() bool { return t.Address == nativeChainAddress } type List struct { Name string `json:"name"` Tokens []*Token `json:"tokens"` UpdatedAt int64 `json:"updatedAt"` Source string `json:"source"` Version string `json:"version"` } type addressTokenMap = map[common.Address]*Token type storeMap = map[uint64]addressTokenMap type ManagerInterface interface { LookupTokenIdentity(chainID uint64, address common.Address, native bool) *Token LookupToken(chainID *uint64, tokenSymbol string) (token *Token, isNative bool) } // Manager is used for accessing token store. It changes the token store based on overridden tokens type Manager struct { db *sql.DB RPCClient *rpc.Client contractMaker *contracts.ContractMaker networkManager *network.Manager stores []store // Set on init, not changed afterwards tokens []*Token tokenLock sync.RWMutex } func mergeTokens(sliceLists [][]*Token) []*Token { allKeys := make(map[string]bool) res := []*Token{} for _, list := range sliceLists { for _, token := range list { key := strconv.FormatUint(token.ChainID, 10) + token.Address.String() if _, value := allKeys[key]; !value { allKeys[key] = true res = append(res, token) } } } return res } func NewTokenManager( db *sql.DB, RPCClient *rpc.Client, networkManager *network.Manager, ) *Manager { maker, _ := contracts.NewContractMaker(RPCClient) stores := []store{newUniswapStore(), newDefaultStore()} tokens := make([]*Token, 0) networks, err := networkManager.GetAll() if err != nil { return nil } for _, store := range stores { validTokens := make([]*Token, 0) for _, token := range store.GetTokens() { token.Verified = true for _, network := range networks { if network.ChainID == token.ChainID { validTokens = append(validTokens, token) break } } } tokens = mergeTokens([][]*Token{tokens, validTokens}) } return &Manager{ db: db, RPCClient: RPCClient, contractMaker: maker, networkManager: networkManager, stores: stores, tokens: tokens, } } // overrideTokensInPlace overrides tokens in the store with the ones from the networks // BEWARE: overridden tokens will have their original address removed and replaced by the one in networks func overrideTokensInPlace(networks []params.Network, tokens []*Token) { for _, network := range networks { if len(network.TokenOverrides) == 0 { continue } for _, overrideToken := range network.TokenOverrides { for _, token := range tokens { if token.Symbol == overrideToken.Symbol { token.Address = overrideToken.Address } } } } } func (tm *Manager) getTokens() []*Token { tm.tokenLock.RLock() defer tm.tokenLock.RUnlock() return tm.tokens } func (tm *Manager) SetTokens(tokens []*Token) { tm.tokenLock.Lock() defer tm.tokenLock.Unlock() tm.tokens = tokens } func (tm *Manager) FindToken(network *params.Network, tokenSymbol string) *Token { if tokenSymbol == network.NativeCurrencySymbol { return tm.ToToken(network) } return tm.GetToken(network.ChainID, tokenSymbol) } func (tm *Manager) LookupToken(chainID *uint64, tokenSymbol string) (token *Token, isNative bool) { if chainID == nil { networks, err := tm.networkManager.Get(false) if err != nil { return nil, false } for _, network := range networks { if tokenSymbol == network.NativeCurrencySymbol { return tm.ToToken(network), true } token := tm.GetToken(network.ChainID, tokenSymbol) if token != nil { return token, false } } } else { network := tm.networkManager.Find(*chainID) if network != nil && tokenSymbol == network.NativeCurrencySymbol { return tm.ToToken(network), true } return tm.GetToken(*chainID, tokenSymbol), false } return nil, false } // GetToken returns token by chainID and tokenSymbol. Use ToToken for native token func (tm *Manager) GetToken(chainID uint64, tokenSymbol string) *Token { allTokens, err := tm.GetTokens(chainID) if err != nil { return nil } for _, token := range allTokens { if token.Symbol == tokenSymbol { return token } } return nil } func (tm *Manager) LookupTokenIdentity(chainID uint64, address common.Address, native bool) *Token { network := tm.networkManager.Find(chainID) if native { return tm.ToToken(network) } return tm.FindTokenByAddress(chainID, address) } func (tm *Manager) FindTokenByAddress(chainID uint64, address common.Address) *Token { allTokens, err := tm.GetTokens(chainID) if err != nil { return nil } for _, token := range allTokens { if token.Address == address { return token } } return nil } func (tm *Manager) FindOrCreateTokenByAddress(ctx context.Context, chainID uint64, address common.Address) *Token { // If token comes datasource, simply returns it for _, token := range tm.getTokens() { if token.ChainID != chainID { continue } if token.Address == address { return token } } // Create custom token if not known or try to link with a community customTokens, err := tm.GetCustoms(false) if err != nil { return nil } for _, token := range customTokens { if token.Address == address { tm.discoverTokenCommunityID(ctx, token, address) return token } } token, err := tm.DiscoverToken(ctx, chainID, address) if err != nil { return nil } err = tm.UpsertCustom(*token) if err != nil { return nil } tm.discoverTokenCommunityID(ctx, token, address) return token } func (tm *Manager) discoverTokenCommunityID(ctx context.Context, token *Token, address common.Address) { if token == nil || token.CommunityID != nil { // Token is invalid or is alrady discovered. Nothing to do here. return } backend, err := tm.RPCClient.EthClient(token.ChainID) if err != nil { return } caller, err := assets.NewAssetsCaller(address, backend) if err != nil { return } uri, err := caller.BaseTokenURI(&bind.CallOpts{ Context: ctx, }) if err != nil { return } update, err := tm.db.Prepare("UPDATE tokens SET community_id=? WHERE network_id=? AND address=?") if err != nil { log.Error("Cannot prepare token update query", err) return } if uri == "" { // Update token community ID to prevent further checks _, err := update.Exec("", token.ChainID, token.Address) if err != nil { log.Error("Cannot update community id", err) } return } uri = strings.TrimSuffix(uri, "/") communityIDHex, err := utils.DeserializePublicKey(uri) if err != nil { return } communityID := eth_node_types.EncodeHex(communityIDHex) _, err = update.Exec(communityID, token.ChainID, token.Address) if err != nil { log.Error("Cannot update community id", err) } } func (tm *Manager) FindSNT(chainID uint64) *Token { tokens, err := tm.GetTokens(chainID) if err != nil { return nil } for _, token := range tokens { if token.Symbol == "SNT" || token.Symbol == "STT" { return token } } return nil } func (tm *Manager) getNativeTokens() ([]*Token, error) { tokens := make([]*Token, 0) networks, err := tm.networkManager.Get(false) if err != nil { return nil, err } for _, network := range networks { tokens = append(tokens, tm.ToToken(network)) } return tokens, nil } func (tm *Manager) GetAllTokens() ([]*Token, error) { allTokens, err := tm.GetCustoms(true) if err != nil { log.Error("can't fetch custom tokens", "error", err) } allTokens = append(tm.getTokens(), allTokens...) overrideTokensInPlace(tm.networkManager.GetConfiguredNetworks(), allTokens) native, err := tm.getNativeTokens() if err != nil { return nil, err } allTokens = append(allTokens, native...) return allTokens, nil } func (tm *Manager) GetTokens(chainID uint64) ([]*Token, error) { tokens, err := tm.GetAllTokens() if err != nil { return nil, err } res := make([]*Token, 0) for _, token := range tokens { if token.ChainID == chainID { res = append(res, token) } } return res, nil } func (tm *Manager) GetTokensByChainIDs(chainIDs []uint64) ([]*Token, error) { tokens, err := tm.GetAllTokens() if err != nil { return nil, err } res := make([]*Token, 0) for _, token := range tokens { for _, chainID := range chainIDs { if token.ChainID == chainID { res = append(res, token) } } } return res, nil } func (tm *Manager) GetList() []*List { res := make([]*List, 0) nativeTokens, err := tm.getNativeTokens() if err == nil { res = append(res, &List{ Name: "native", Tokens: nativeTokens, UpdatedAt: time.Now().Unix(), Source: "native", Version: "1.0.0", }) } customTokens, err := tm.GetCustoms(true) if err == nil && len(customTokens) > 0 { res = append(res, &List{ Name: "custom", Tokens: customTokens, UpdatedAt: time.Now().Unix(), Source: "custom", Version: "1.0.0", }) } for _, store := range tm.stores { res = append(res, &List{ Name: store.GetName(), Tokens: store.GetTokens(), UpdatedAt: store.GetUpdatedAt(), Source: store.GetSource(), Version: store.GetVersion(), }) } return res } func (tm *Manager) DiscoverToken(ctx context.Context, chainID uint64, address common.Address) (*Token, error) { caller, err := tm.contractMaker.NewERC20(chainID, address) if err != nil { return nil, err } name, err := caller.Name(&bind.CallOpts{ Context: ctx, }) if err != nil { return nil, err } symbol, err := caller.Symbol(&bind.CallOpts{ Context: ctx, }) if err != nil { return nil, err } decimal, err := caller.Decimals(&bind.CallOpts{ Context: ctx, }) if err != nil { return nil, err } return &Token{ Address: address, Name: name, Symbol: symbol, Decimals: uint(decimal), ChainID: chainID, }, nil } func (tm *Manager) getTokensFromDB(query string, args ...any) ([]*Token, error) { rows, err := tm.db.Query(query, args...) if err != nil { return nil, err } defer rows.Close() var rst []*Token for rows.Next() { token := &Token{} var communityIDDB sql.NullString err := rows.Scan(&token.Address, &token.Name, &token.Symbol, &token.Decimals, &token.ChainID, &communityIDDB) if err != nil { return nil, err } if communityIDDB.Valid { token.CommunityID = &communityIDDB.String } rst = append(rst, token) } return rst, nil } func (tm *Manager) GetCustoms(onlyCommunityCustoms bool) ([]*Token, error) { if onlyCommunityCustoms { return tm.getTokensFromDB("SELECT address, name, symbol, decimals, network_id, community_id FROM tokens WHERE community_id IS NOT NULL AND community_id != ''") } return tm.getTokensFromDB("SELECT address, name, symbol, decimals, network_id, community_id FROM tokens") } func (tm *Manager) ToToken(network *params.Network) *Token { return &Token{ Address: common.HexToAddress("0x"), Name: network.NativeCurrencyName, Symbol: network.NativeCurrencySymbol, Decimals: uint(network.NativeCurrencyDecimals), ChainID: network.ChainID, Verified: true, } } func (tm *Manager) UpsertCustom(token Token) error { insert, err := tm.db.Prepare("INSERT OR REPLACE INTO TOKENS (network_id, address, name, symbol, decimals) VALUES (?, ?, ?, ?, ?)") if err != nil { return err } _, err = insert.Exec(token.ChainID, token.Address, token.Name, token.Symbol, token.Decimals) return err } func (tm *Manager) DeleteCustom(chainID uint64, address common.Address) error { _, err := tm.db.Exec(`DELETE FROM TOKENS WHERE address = ? and network_id = ?`, address, chainID) return err } func (tm *Manager) GetTokenBalance(ctx context.Context, client chain.ClientInterface, account common.Address, token common.Address) (*big.Int, error) { caller, err := ierc20.NewIERC20Caller(token, client) if err != nil { return nil, err } return caller.BalanceOf(&bind.CallOpts{ Context: ctx, }, account) } func (tm *Manager) GetTokenBalanceAt(ctx context.Context, client chain.ClientInterface, account common.Address, token common.Address, blockNumber *big.Int) (*big.Int, error) { caller, err := ierc20.NewIERC20Caller(token, client) if err != nil { return nil, err } balance, err := caller.BalanceOf(&bind.CallOpts{ Context: ctx, BlockNumber: blockNumber, }, account) if err != nil { if err != bind.ErrNoCode { return nil, err } balance = big.NewInt(0) } return balance, nil } func (tm *Manager) GetChainBalance(ctx context.Context, client chain.ClientInterface, account common.Address) (*big.Int, error) { return client.BalanceAt(ctx, account, nil) } func (tm *Manager) GetBalance(ctx context.Context, client chain.ClientInterface, account common.Address, token common.Address) (*big.Int, error) { if token == nativeChainAddress { return tm.GetChainBalance(ctx, client, account) } return tm.GetTokenBalance(ctx, client, account, token) } func (tm *Manager) GetBalancesByChain(parent context.Context, clients map[uint64]chain.ClientInterface, accounts, tokens []common.Address) (map[uint64]map[common.Address]map[common.Address]*hexutil.Big, error) { return tm.GetBalancesAtByChain(parent, clients, accounts, tokens, nil) } func (tm *Manager) GetBalancesAtByChain(parent context.Context, clients map[uint64]chain.ClientInterface, accounts, tokens []common.Address, atBlocks map[uint64]*big.Int) (map[uint64]map[common.Address]map[common.Address]*hexutil.Big, error) { var ( group = async.NewAtomicGroup(parent) mu sync.Mutex response = map[uint64]map[common.Address]map[common.Address]*hexutil.Big{} ) updateBalance := func(chainID uint64, account common.Address, token common.Address, balance *big.Int) { mu.Lock() if _, ok := response[chainID]; !ok { response[chainID] = map[common.Address]map[common.Address]*hexutil.Big{} } if _, ok := response[chainID][account]; !ok { response[chainID][account] = map[common.Address]*hexutil.Big{} } if _, ok := response[chainID][account][token]; !ok { zeroHex := hexutil.Big(*big.NewInt(0)) response[chainID][account][token] = &zeroHex } sum := big.NewInt(0).Add(response[chainID][account][token].ToInt(), balance) sumHex := hexutil.Big(*sum) response[chainID][account][token] = &sumHex mu.Unlock() } for clientIdx := range clients { // Keep the reference to the client. DO NOT USE A LOOP, the client will be overridden in the coroutine client := clients[clientIdx] ethScanContract, availableAtBlock, err := tm.contractMaker.NewEthScan(client.NetworkID()) if err != nil { log.Error("error scanning contract", "err", err) return nil, err } atBlock := atBlocks[client.NetworkID()] fetchChainBalance := false var tokenChunks [][]common.Address chunkSize := 500 for i := 0; i < len(tokens); i += chunkSize { end := i + chunkSize if end > len(tokens) { end = len(tokens) } tokenChunks = append(tokenChunks, tokens[i:end]) } for _, token := range tokens { if token == nativeChainAddress { fetchChainBalance = true } } if fetchChainBalance { group.Add(func(parent context.Context) error { ctx, cancel := context.WithTimeout(parent, requestTimeout) defer cancel() res, err := ethScanContract.EtherBalances(&bind.CallOpts{ Context: ctx, BlockNumber: atBlock, }, accounts) if err != nil { log.Error("can't fetch chain balance 5", err) return nil } for idx, account := range accounts { balance := new(big.Int) balance.SetBytes(res[idx].Data) updateBalance(client.NetworkID(), account, common.HexToAddress("0x"), balance) } return nil }) } for accountIdx := range accounts { // Keep the reference to the account. DO NOT USE A LOOP, the account will be overridden in the coroutine account := accounts[accountIdx] for idx := range tokenChunks { // Keep the reference to the chunk. DO NOT USE A LOOP, the chunk will be overridden in the coroutine chunk := tokenChunks[idx] group.Add(func(parent context.Context) error { ctx, cancel := context.WithTimeout(parent, requestTimeout) defer cancel() var res []ethscan.BalanceScannerResult if atBlock == nil || big.NewInt(int64(availableAtBlock)).Cmp(atBlock) < 0 { res, err = ethScanContract.TokensBalance(&bind.CallOpts{ Context: ctx, BlockNumber: atBlock, }, account, chunk) if err != nil { log.Error("can't fetch erc20 token balance 6", "account", account, "error", err) return nil } if len(res) != len(chunk) { log.Error("can't fetch erc20 token balance 7", "account", account, "error response not complete") return nil } for idx, token := range chunk { if !res[idx].Success { continue } balance := new(big.Int) balance.SetBytes(res[idx].Data) updateBalance(client.NetworkID(), account, token, balance) } return nil } for _, token := range chunk { balance, err := tm.GetTokenBalanceAt(ctx, client, account, token, atBlock) if err != nil { if err != bind.ErrNoCode { log.Error("can't fetch erc20 token balance 8", "account", account, "token", token, "error on fetching token balance") return nil } } updateBalance(client.NetworkID(), account, token, balance) } return nil }) } } } select { case <-group.WaitAsync(): case <-parent.Done(): return nil, parent.Err() } return response, group.Error() }