package network import ( "bytes" "database/sql" "fmt" "github.com/status-im/status-go/multiaccounts/accounts" "github.com/status-im/status-go/params" ) var SepoliaChainIDs = []uint64{11155111, 421614} // GoerliChainIDs Uncomment next chain when we move more chain to sepolia var GoerliChainIDs = []uint64{5, 421613} //, 420, } type CombinedNetwork struct { Prod *params.Network Test *params.Network } const baseQuery = "SELECT chain_id, chain_name, rpc_url, original_rpc_url, fallback_url, original_fallback_url, block_explorer_url, icon_url, native_currency_name, native_currency_symbol, native_currency_decimals, is_test, layer, enabled, chain_color, short_name, related_chain_id FROM networks" func newNetworksQuery() *networksQuery { buf := bytes.NewBuffer(nil) buf.WriteString(baseQuery) return &networksQuery{buf: buf} } type networksQuery struct { buf *bytes.Buffer args []interface{} added bool } func (nq *networksQuery) andOrWhere() { if nq.added { nq.buf.WriteString(" AND") } else { nq.buf.WriteString(" WHERE") } } func (nq *networksQuery) filterEnabled(enabled bool) *networksQuery { nq.andOrWhere() nq.added = true nq.buf.WriteString(" enabled = ?") nq.args = append(nq.args, enabled) return nq } func (nq *networksQuery) filterChainID(chainID uint64) *networksQuery { nq.andOrWhere() nq.added = true nq.buf.WriteString(" chain_id = ?") nq.args = append(nq.args, chainID) return nq } func (nq *networksQuery) exec(db *sql.DB) ([]*params.Network, error) { rows, err := db.Query(nq.buf.String(), nq.args...) if err != nil { return nil, err } var res []*params.Network defer rows.Close() for rows.Next() { network := params.Network{} err := rows.Scan( &network.ChainID, &network.ChainName, &network.RPCURL, &network.OriginalRPCURL, &network.FallbackURL, &network.OriginalFallbackURL, &network.BlockExplorerURL, &network.IconURL, &network.NativeCurrencyName, &network.NativeCurrencySymbol, &network.NativeCurrencyDecimals, &network.IsTest, &network.Layer, &network.Enabled, &network.ChainColor, &network.ShortName, &network.RelatedChainID, ) if err != nil { return nil, err } res = append(res, &network) } return res, err } type Manager struct { db *sql.DB configuredNetworks []params.Network accountsDB *accounts.Database } func NewManager(db *sql.DB) *Manager { accountsDB, err := accounts.NewDB(db) if err != nil { return nil } return &Manager{ db: db, accountsDB: accountsDB, } } func find(chainID uint64, networks []params.Network) int { for i := range networks { if networks[i].ChainID == chainID { return i } } return -1 } func (nm *Manager) Init(networks []params.Network) error { if networks == nil { return nil } nm.configuredNetworks = networks var errors string currentNetworks, _ := nm.Get(false) // Delete networks which are not supported any more for i := range currentNetworks { if find(currentNetworks[i].ChainID, networks) == -1 { err := nm.Delete(currentNetworks[i].ChainID) if err != nil { errors += fmt.Sprintf("error deleting network with ChainID: %d, %s", currentNetworks[i].ChainID, err.Error()) } } } // Add new networks and update related chain id for the old ones for i := range networks { found := false // Update original urls if they are empty if networks[i].OriginalRPCURL == "" { networks[i].OriginalRPCURL = networks[i].RPCURL } if networks[i].OriginalFallbackURL == "" { networks[i].OriginalFallbackURL = networks[i].FallbackURL } for j := range currentNetworks { if currentNetworks[j].ChainID == networks[i].ChainID { found = true if currentNetworks[j].RelatedChainID != networks[i].RelatedChainID { // Update fallback_url if it's different err := nm.UpdateRelatedChainID(currentNetworks[j].ChainID, networks[i].RelatedChainID) if err != nil { errors += fmt.Sprintf("error updating network fallback_url for ChainID: %d, %s", currentNetworks[j].ChainID, err.Error()) } } err := nm.UpdateRPCURLs(currentNetworks[j].ChainID, networks[i].RPCURL, networks[i].OriginalRPCURL, networks[i].FallbackURL, networks[i].OriginalFallbackURL) if err != nil { errors += fmt.Sprintf("error updating network original url for ChainID: %d, %s", currentNetworks[j].ChainID, err.Error()) } break } } if !found { // Insert new network err := nm.Upsert(&networks[i]) if err != nil { errors += fmt.Sprintf("error inserting network with ChainID: %d, %s", networks[i].ChainID, err.Error()) } } } if len(errors) > 0 { return fmt.Errorf(errors) } return nil } func (nm *Manager) Upsert(network *params.Network) error { _, err := nm.db.Exec( "INSERT OR REPLACE INTO networks (chain_id, chain_name, rpc_url, original_rpc_url, fallback_url, original_fallback_url, block_explorer_url, icon_url, native_currency_name, native_currency_symbol, native_currency_decimals, is_test, layer, enabled, chain_color, short_name, related_chain_id) VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?)", network.ChainID, network.ChainName, network.RPCURL, network.OriginalRPCURL, network.FallbackURL, network.OriginalFallbackURL, network.BlockExplorerURL, network.IconURL, network.NativeCurrencyName, network.NativeCurrencySymbol, network.NativeCurrencyDecimals, network.IsTest, network.Layer, network.Enabled, network.ChainColor, network.ShortName, network.RelatedChainID, ) return err } func (nm *Manager) Delete(chainID uint64) error { _, err := nm.db.Exec("DELETE FROM networks WHERE chain_id = ?", chainID) return err } func (nm *Manager) UpdateRelatedChainID(chainID uint64, relatedChainID uint64) error { _, err := nm.db.Exec(`UPDATE networks SET related_chain_id = ? WHERE chain_id = ?`, relatedChainID, chainID) return err } func (nm *Manager) UpdateRPCURLs(chainID uint64, rpcURL, originalRPCURL, fallbackURL, originalFallbackURL string) error { _, err := nm.db.Exec(`UPDATE networks SET rpc_url = ?, original_rpc_url = ?, fallback_url = ?, original_fallback_url = ? WHERE chain_id = ?`, rpcURL, originalRPCURL, fallbackURL, originalFallbackURL, chainID) return err } func (nm *Manager) Find(chainID uint64) *params.Network { networks, err := newNetworksQuery().filterChainID(chainID).exec(nm.db) if len(networks) != 1 || err != nil { return nil } return networks[0] } func (nm *Manager) GetAll() ([]*params.Network, error) { query := newNetworksQuery() return query.exec(nm.db) } func (nm *Manager) Get(onlyEnabled bool) ([]*params.Network, error) { isSepoliaEnabled, err := nm.accountsDB.GetIsSepoliaEnabled() if err != nil { return nil, err } query := newNetworksQuery() if onlyEnabled { query.filterEnabled(true) } networks, err := query.exec(nm.db) if err != nil { return nil, err } var results []*params.Network for _, network := range networks { if !isSepoliaEnabled { found := false for _, chainID := range SepoliaChainIDs { if network.ChainID == chainID { found = true break } } if found { continue } } if isSepoliaEnabled { found := false for _, chainID := range GoerliChainIDs { if network.ChainID == chainID { found = true break } } if found { continue } } results = append(results, network) } return results, nil } func (nm *Manager) GetCombinedNetworks() ([]*CombinedNetwork, error) { networks, err := nm.Get(false) if err != nil { return nil, err } var combinedNetworks []*CombinedNetwork for _, network := range networks { found := false for _, n := range combinedNetworks { if (n.Test != nil && (network.ChainID == n.Test.RelatedChainID || n.Test.ChainID == network.RelatedChainID)) || (n.Prod != nil && (network.ChainID == n.Prod.RelatedChainID || n.Prod.ChainID == network.RelatedChainID)) { found = true if network.IsTest { n.Test = network break } else { n.Prod = network break } } } if found { continue } newCombined := &CombinedNetwork{} if network.IsTest { newCombined.Test = network } else { newCombined.Prod = network } combinedNetworks = append(combinedNetworks, newCombined) } return combinedNetworks, nil } func (nm *Manager) GetConfiguredNetworks() []params.Network { return nm.configuredNetworks }