package appdatabase import ( "database/sql" "encoding/json" "errors" "math/big" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/core/types" "github.com/ethereum/go-ethereum/log" "github.com/status-im/status-go/appdatabase/migrations" migrationsprevnodecfg "github.com/status-im/status-go/appdatabase/migrationsprevnodecfg" "github.com/status-im/status-go/nodecfg" "github.com/status-im/status-go/services/wallet/bigint" w_common "github.com/status-im/status-go/services/wallet/common" "github.com/status-im/status-go/sqlite" ) const nodeCfgMigrationDate = 1640111208 var customSteps = []sqlite.PostStep{ {Version: 1674136690, CustomMigration: migrateEnsUsernames}, {Version: 1686048341, CustomMigration: migrateWalletJSONBlobs, RollBackVersion: 1686041510}, {Version: 1687193315, CustomMigration: migrateWalletTransferFromToAddresses, RollBackVersion: 1686825075}, } func doMigration(db *sql.DB) error { lastMigration, migrationTableExists, err := sqlite.GetLastMigrationVersion(db) if err != nil { return err } if !migrationTableExists || (lastMigration > 0 && lastMigration < nodeCfgMigrationDate) { // If it's the first time migration's being run, or latest migration happened before migrating the nodecfg table err = migrationsprevnodecfg.Migrate(db) if err != nil { return err } // NodeConfig migration cannot be done with SQL err = nodecfg.MigrateNodeConfig(db) if err != nil { return err } } // Run all the new migrations err = migrations.Migrate(db, customSteps) if err != nil { return err } return nil } // InitializeDB creates db file at a given path and applies migrations. func InitializeDB(path, password string, kdfIterationsNumber int) (*sql.DB, error) { db, err := sqlite.OpenDB(path, password, kdfIterationsNumber) if err != nil { return nil, err } err = doMigration(db) if err != nil { return nil, err } return db, nil } // DecryptDatabase creates an unencrypted copy of the database and copies it // over to the given directory func DecryptDatabase(oldPath, newPath, password string, kdfIterationsNumber int) error { return sqlite.DecryptDB(oldPath, newPath, password, kdfIterationsNumber) } // EncryptDatabase creates an encrypted copy of the database and copies it to the // user path func EncryptDatabase(oldPath, newPath, password string, kdfIterationsNumber int, onStart func(), onEnd func()) error { return sqlite.EncryptDB(oldPath, newPath, password, kdfIterationsNumber, onStart, onEnd) } func ExportDB(path string, password string, kdfIterationsNumber int, newDbPAth string, newPassword string, onStart func(), onEnd func()) error { return sqlite.ExportDB(path, password, kdfIterationsNumber, newDbPAth, newPassword, onStart, onEnd) } func ChangeDatabasePassword(path string, password string, kdfIterationsNumber int, newPassword string, onStart func(), onEnd func()) error { return sqlite.ChangeEncryptionKey(path, password, kdfIterationsNumber, newPassword, onStart, onEnd) } // GetDBFilename takes an instance of sql.DB and returns the filename of the "main" database func GetDBFilename(db *sql.DB) (string, error) { if db == nil { logger := log.New() logger.Warn("GetDBFilename was passed a nil pointer sql.DB") return "", nil } var i, category, filename string rows, err := db.Query("PRAGMA database_list;") if err != nil { return "", err } defer rows.Close() for rows.Next() { err = rows.Scan(&i, &category, &filename) if err != nil { return "", err } // The "main" database is the one we care about if category == "main" { return filename, nil } } if err := rows.Err(); err != nil { return "", err } return "", errors.New("no main database found") } func migrateEnsUsernames(sqlTx *sql.Tx) error { // 1. Check if ens_usernames table already exist // row := sqlTx.QueryRow("SELECT exists(SELECT name FROM sqlite_master WHERE type='table' AND name='ens_usernames')") // tableExists := false // err := row.Scan(&tableExists) // if err != nil && err != sql.ErrNoRows { // return err // } // if tableExists { // return nil // } // -- 1. Create new ens_usernames table // _, err = sqlTx.Exec(`CREATE TABLE IF NOT EXISTS ens_usernames ( // "username" TEXT NOT NULL, // "chain_id" UNSIGNED BIGINT DEFAULT 1);`) // if err != nil { // log.Error("Migrating ens usernames: failed to create table", "err", err.Error()) // return err // } // -- 2. Move current `settings.usernames` to the new table /* INSERT INTO ens_usernames (username) SELECT json_each.value FROM settings, json_each(usernames); */ rows, err := sqlTx.Query(`SELECT usernames FROM settings`) if err != nil { log.Error("Migrating ens usernames: failed to query 'settings.usernames'", "err", err.Error()) return err } defer rows.Close() var usernames []string for rows.Next() { var usernamesJSON sql.NullString err := rows.Scan(&usernamesJSON) if err != nil { return err } if !usernamesJSON.Valid { continue } var list []string err = json.Unmarshal([]byte(usernamesJSON.String), &list) if err != nil { return err } usernames = append(usernames, list...) } defaultChainID := 1 for _, username := range usernames { var usernameAlreadyMigrated bool row := sqlTx.QueryRow(`SELECT EXISTS(SELECT 1 FROM ens_usernames WHERE username=? AND chain_id=?)`, username, defaultChainID) err := row.Scan(&usernameAlreadyMigrated) if err != nil { return err } if usernameAlreadyMigrated { continue } _, err = sqlTx.Exec(`INSERT INTO ens_usernames (username, chain_id) VALUES (?, ?)`, username, defaultChainID) if err != nil { log.Error("Migrating ens usernames: failed to insert username into new database", "ensUsername", username, "err", err.Error()) } } return nil } func MigrateV3ToV4(v3Path string, v4Path string, password string, kdfIterationsNumber int, onStart func(), onEnd func()) error { return sqlite.MigrateV3ToV4(v3Path, v4Path, password, kdfIterationsNumber, onStart, onEnd) } const ( batchSize = 1000 ) func migrateWalletJSONBlobs(sqlTx *sql.Tx) error { var batchEntries [][]interface{} // Extract useful information from the receipt blob and store it as sql interpretable // // Added tx_hash because the hash column in the transfers table is not (always) the transaction hash. // Each entry in that table could either be: A native token (ETH) transfer or ERC20/ERC721 token transfer // Added block_hash because the block_hash we have is generated by us and used as block entry ID // Added receipt_type, the type we have only indicates if chain or token // Added log_index that the log data represents // // Dropped storing postState because it was replaced by the status after EIP 658 // Dropped duplicating logs until we have a more structured way to store them. // They can be extracted from the transfers.receipt still // Dropped the bloom filter because in SQLite is not possible to use it in an // efficient manner // // Extract useful information from the tx blob // // Added tx_type, which might be different than the receipt type // // Dropped access_list, need a separate table for it // Already there chain_id // Dropped v, r, s because I see no way to be useful as BLOBs // Added BIGINT values as clamped 64 INT because we can't use 128 bits blobs/strings for int arithmetics // _clamped64 prefix indicate clamped 64 bits INT values might be useful for queries (sorting, filtering ...) // The amount is stored as a fixed length 128 bit hex string, in // order to be able to sort and filter by it newColumnsAndIndexSetup := ` ALTER TABLE transfers ADD COLUMN status INT; ALTER TABLE transfers ADD COLUMN receipt_type INT; ALTER TABLE transfers ADD COLUMN tx_hash BLOB; ALTER TABLE transfers ADD COLUMN log_index INT; ALTER TABLE transfers ADD COLUMN block_hash BLOB; ALTER TABLE transfers ADD COLUMN cumulative_gas_used INT; ALTER TABLE transfers ADD COLUMN contract_address TEXT; ALTER TABLE transfers ADD COLUMN gas_used INT; ALTER TABLE transfers ADD COLUMN tx_index INT; ALTER TABLE transfers ADD COLUMN tx_type INT; ALTER TABLE transfers ADD COLUMN protected BOOLEAN; ALTER TABLE transfers ADD COLUMN gas_limit UNSIGNED INT; ALTER TABLE transfers ADD COLUMN gas_price_clamped64 INT; ALTER TABLE transfers ADD COLUMN gas_tip_cap_clamped64 INT; ALTER TABLE transfers ADD COLUMN gas_fee_cap_clamped64 INT; ALTER TABLE transfers ADD COLUMN amount_padded128hex CHAR(32); ALTER TABLE transfers ADD COLUMN account_nonce INT; ALTER TABLE transfers ADD COLUMN size INT; ALTER TABLE transfers ADD COLUMN token_address BLOB; ALTER TABLE transfers ADD COLUMN token_id BLOB; CREATE INDEX idx_transfers_filter ON transfers (status, token_address, token_id);` rowIndex := 0 mightHaveRows := true _, err := sqlTx.Exec(newColumnsAndIndexSetup) if err != nil { return err } for mightHaveRows { var chainID uint64 var hash common.Hash var address common.Address var entryType string rows, err := sqlTx.Query(`SELECT hash, address, network_id, tx, receipt, log, type FROM transfers WHERE tx IS NOT NULL OR receipt IS NOT NULL LIMIT ? OFFSET ?`, batchSize, rowIndex) if err != nil { return err } curProcessed := 0 for rows.Next() { tx := &types.Transaction{} r := &types.Receipt{} l := &types.Log{} // Scan row data into the transaction and receipt objects nullableTx := sqlite.JSONBlob{Data: tx} nullableR := sqlite.JSONBlob{Data: r} nullableL := sqlite.JSONBlob{Data: l} err = rows.Scan(&hash, &address, &chainID, &nullableTx, &nullableR, &nullableL, &entryType) if err != nil { rows.Close() return err } var logIndex *uint if nullableL.Valid { logIndex = new(uint) *logIndex = l.Index } var currentRow []interface{} // Check if the receipt is not null before transferring the receipt data if nullableR.Valid { currentRow = append(currentRow, r.Status, r.Type, r.TxHash, logIndex, r.BlockHash, r.CumulativeGasUsed, r.ContractAddress, r.GasUsed, r.TransactionIndex) } else { for i := 0; i < 9; i++ { currentRow = append(currentRow, nil) } } if nullableTx.Valid { correctType, tokenID, value, tokenAddress := extractToken(entryType, tx, l, nullableL.Valid) gasPrice := sqlite.BigIntToClampedInt64(tx.GasPrice()) gasTipCap := sqlite.BigIntToClampedInt64(tx.GasTipCap()) gasFeeCap := sqlite.BigIntToClampedInt64(tx.GasFeeCap()) valueStr := sqlite.BigIntToPadded128BitsStr(value) currentRow = append(currentRow, tx.Type(), tx.Protected(), tx.Gas(), gasPrice, gasTipCap, gasFeeCap, valueStr, tx.Nonce(), int64(tx.Size()), tokenAddress, (*bigint.SQLBigIntBytes)(tokenID), correctType) } else { for i := 0; i < 11; i++ { currentRow = append(currentRow, nil) } currentRow = append(currentRow, w_common.EthTransfer) } currentRow = append(currentRow, hash, address, chainID) batchEntries = append(batchEntries, currentRow) curProcessed++ } rowIndex += curProcessed // Check if there was an error in the last rows.Next() rows.Close() if err = rows.Err(); err != nil { return err } mightHaveRows = (curProcessed == batchSize) // insert extracted data into the new columns if len(batchEntries) > 0 { var stmt *sql.Stmt stmt, err = sqlTx.Prepare(`UPDATE transfers SET status = ?, receipt_type = ?, tx_hash = ?, log_index = ?, block_hash = ?, cumulative_gas_used = ?, contract_address = ?, gas_used = ?, tx_index = ?, tx_type = ?, protected = ?, gas_limit = ?, gas_price_clamped64 = ?, gas_tip_cap_clamped64 = ?, gas_fee_cap_clamped64 = ?, amount_padded128hex = ?, account_nonce = ?, size = ?, token_address = ?, token_id = ?, type = ? WHERE hash = ? AND address = ? AND network_id = ?`) if err != nil { return err } for _, dataEntry := range batchEntries { _, err = stmt.Exec(dataEntry...) if err != nil { return err } } // Reset placeHolders and batchEntries for the next batch batchEntries = [][]interface{}{} } } return nil } func extractToken(entryType string, tx *types.Transaction, l *types.Log, logValid bool) (correctType w_common.Type, tokenID *big.Int, value *big.Int, tokenAddress *common.Address) { if logValid { correctType, tokenAddress, tokenID, value, _, _ = w_common.ExtractTokenIdentity(w_common.Type(entryType), l, tx) } else { correctType = w_common.Type(entryType) value = new(big.Int).Set(tx.Value()) } return } func migrateWalletTransferFromToAddresses(sqlTx *sql.Tx) error { var batchEntries [][]interface{} // Extract transfer from/to addresses and add the information into the new columns // Re-extract token address and insert it as blob instead of string newColumnsAndIndexSetup := ` ALTER TABLE transfers ADD COLUMN tx_from_address BLOB; ALTER TABLE transfers ADD COLUMN tx_to_address BLOB;` rowIndex := 0 mightHaveRows := true _, err := sqlTx.Exec(newColumnsAndIndexSetup) if err != nil { return err } for mightHaveRows { var chainID uint64 var hash common.Hash var address common.Address var sender common.Address var entryType string rows, err := sqlTx.Query(`SELECT hash, address, sender, network_id, tx, log, type FROM transfers WHERE tx IS NOT NULL OR receipt IS NOT NULL LIMIT ? OFFSET ?`, batchSize, rowIndex) if err != nil { return err } curProcessed := 0 for rows.Next() { tx := &types.Transaction{} l := &types.Log{} // Scan row data into the transaction and receipt objects nullableTx := sqlite.JSONBlob{Data: tx} nullableL := sqlite.JSONBlob{Data: l} err = rows.Scan(&hash, &address, &sender, &chainID, &nullableTx, &nullableL, &entryType) if err != nil { rows.Close() return err } var currentRow []interface{} var tokenAddress *common.Address var txFrom *common.Address var txTo *common.Address if nullableTx.Valid { if nullableL.Valid { _, tokenAddress, _, _, txFrom, txTo = w_common.ExtractTokenIdentity(w_common.Type(entryType), l, tx) } else { txFrom = &sender txTo = tx.To() } } currentRow = append(currentRow, tokenAddress, txFrom, txTo) currentRow = append(currentRow, hash, address, chainID) batchEntries = append(batchEntries, currentRow) curProcessed++ } rowIndex += curProcessed // Check if there was an error in the last rows.Next() rows.Close() if err = rows.Err(); err != nil { return err } mightHaveRows = (curProcessed == batchSize) // insert extracted data into the new columns if len(batchEntries) > 0 { var stmt *sql.Stmt stmt, err = sqlTx.Prepare(`UPDATE transfers SET token_address = ?, tx_from_address = ?, tx_to_address = ? WHERE hash = ? AND address = ? AND network_id = ?`) if err != nil { return err } for _, dataEntry := range batchEntries { _, err = stmt.Exec(dataEntry...) if err != nil { return err } } // Reset placeHolders and batchEntries for the next batch batchEntries = [][]interface{}{} } } return nil }