package store // TODO - DeviceId - What about clients that lie about deviceId? Maybe require a certain format to make sure it gives a real value? Something it wouldn't come up with by accident. import ( "database/sql" "errors" "fmt" "github.com/mattn/go-sqlite3" "log" "orblivion/lbry-id/auth" "orblivion/lbry-id/wallet" "time" ) var ( ErrDuplicateToken = fmt.Errorf("Token already exists for this user and device") ErrNoToken = fmt.Errorf("Token does not exist for this user and device") ErrDuplicateWallet = fmt.Errorf("Wallet already exists for this user") ErrNoWallet = fmt.Errorf("Wallet does not exist for this user at this sequence") ErrWrongSequence = fmt.Errorf("Wallet could not be updated to this sequence") ErrDuplicateEmail = fmt.Errorf("Email already exists for this user") ErrDuplicateAccount = fmt.Errorf("User already has an account") ErrNoUId = fmt.Errorf("User Id not found with these credentials") ) // For test stubs type StoreInterface interface { SaveToken(*auth.AuthToken) error GetToken(auth.TokenString) (*auth.AuthToken, error) SetWallet(auth.UserId, wallet.EncryptedWallet, wallet.Sequence, wallet.WalletHmac) error GetWallet(auth.UserId) (wallet.EncryptedWallet, wallet.Sequence, wallet.WalletHmac, error) GetUserId(auth.Email, auth.Password) (auth.UserId, error) CreateAccount(auth.Email, auth.Password) (err error) } type Store struct { db *sql.DB } func (s *Store) Init(fileName string) { db, err := sql.Open("sqlite3", fileName) if err != nil { log.Fatal(err) } s.db = db } func (s *Store) Migrate() error { // We use the `sequence` field for transaction safety. For instance, let's // say two different clients are trying to update the sequence from 5 to 6. // The update command will specify "WHERE sequence=5". Only one of these // commands will succeed, and the other will get back an error. // We use AUTOINCREMENT against the protestations of people on the Internet // who claim that INTEGER PRIMARY KEY automatically has autoincrment, and // that using it when it's not "strictly needed" uses extra resources. But // without AUTOINCREMENT, it might reuse primary keys if a row is deleted and // re-added. Who wants that risk? Besides, we'll switch to Postgres when it's // time to scale anyway. // We use UNIQUE on auth_tokens.token so that we can retrieve it easily and // identify the user (and I suppose the uniqueness provides a little extra // security in case we screw up the random generator). However the primary // key should still be (user_id, device_id) so that a device's row can be // updated with a new token. query := ` CREATE TABLE IF NOT EXISTS auth_tokens( token TEXT NOT NULL UNIQUE, user_id INTEGER NOT NULL, device_id TEXT NOT NULL, scope TEXT NOT NULL, expiration DATETIME NOT NULL, PRIMARY KEY (user_id, device_id) ); CREATE TABLE IF NOT EXISTS wallets( user_id INTEGER NOT NULL, encrypted_wallet TEXT NOT NULL, sequence INTEGER NOT NULL, hmac TEXT NOT NULL, PRIMARY KEY (user_id) FOREIGN KEY (user_id) REFERENCES accounts(user_id) ); CREATE TABLE IF NOT EXISTS accounts( email TEXT NOT NULL UNIQUE, user_id INTEGER PRIMARY KEY AUTOINCREMENT, password TEXT NOT NULL ); ` _, err := s.db.Exec(query) return err } //////////////// // Auth Token // //////////////// // TODO - Is it safe to assume that the owner of the token is legit, and is // coming from the legit device id? No need to query by userId and deviceId // (which I did previously)? // // TODO Put the timestamp in the token to avoid duplicates over time. And/or just use a library! Someone solved this already. func (s *Store) GetToken(token auth.TokenString) (*auth.AuthToken, error) { expirationCutoff := time.Now().UTC() rows, err := s.db.Query( "SELECT * FROM auth_tokens WHERE token=? AND expiration>?", token, expirationCutoff, ) if err != nil { return nil, err } defer rows.Close() var authToken auth.AuthToken for rows.Next() { err := rows.Scan( &authToken.Token, &authToken.UserId, &authToken.DeviceId, &authToken.Scope, &authToken.Expiration, ) if err != nil { return nil, err } return &authToken, nil } return nil, ErrNoToken // TODO - will need to test } func (s *Store) insertToken(authToken *auth.AuthToken, expiration time.Time) (err error) { _, err = s.db.Exec( "INSERT INTO auth_tokens (token, user_id, device_id, scope, expiration) values(?,?,?,?,?)", authToken.Token, authToken.UserId, authToken.DeviceId, authToken.Scope, expiration, ) var sqliteErr sqlite3.Error if errors.As(err, &sqliteErr) { // I initially expected to need to check for ErrConstraintUnique. // Maybe for psql it will be? if errors.Is(sqliteErr.ExtendedCode, sqlite3.ErrConstraintPrimaryKey) { err = ErrDuplicateToken } } return } func (s *Store) updateToken(authToken *auth.AuthToken, experation time.Time) (err error) { res, err := s.db.Exec( "UPDATE auth_tokens SET token=?, expiration=?, scope=? WHERE user_id=? AND device_id=?", authToken.Token, experation, authToken.Scope, authToken.UserId, authToken.DeviceId, ) if err != nil { return } numRows, err := res.RowsAffected() if err != nil { return } if numRows == 0 { err = ErrNoToken } return } func (s *Store) SaveToken(token *auth.AuthToken) (err error) { // TODO: For psql, do upsert here instead of separate insertToken and updateToken functions // TODO - Should we auto-delete expired tokens? expiration := time.Now().UTC().Add(time.Hour * 24 * 14) // This is most likely not the first time calling this function for this // device, so there's probably already a token in there. err = s.updateToken(token, expiration) if err == ErrNoToken { // If we don't have a token already saved, insert a new one: err = s.insertToken(token, expiration) if err == ErrDuplicateToken { // By unlikely coincidence, a token was created between trying `updateToken` // and trying `insertToken`. At this point we can safely `updateToken`. // TODO - reconsider this - if one client has two concurrent requests // that create this situation, maybe the second one should just fail? err = s.updateToken(token, expiration) } } if err == nil { token.Expiration = &expiration } return } //////////// // Wallet // //////////// func (s *Store) GetWallet(userId auth.UserId) (encryptedWallet wallet.EncryptedWallet, sequence wallet.Sequence, hmac wallet.WalletHmac, err error) { rows, err := s.db.Query( "SELECT encrypted_wallet, sequence, hmac FROM wallets WHERE user_id=?", userId, ) if err != nil { return } defer rows.Close() for rows.Next() { err = rows.Scan( &encryptedWallet, &sequence, &hmac, ) return } err = ErrNoWallet return } func (s *Store) insertFirstWallet( userId auth.UserId, encryptedWallet wallet.EncryptedWallet, hmac wallet.WalletHmac, ) (err error) { // This will only be used to attempt to insert the first wallet (sequence=1). // The database will enforce that this will not be set if this user already // has a wallet. _, err = s.db.Exec( "INSERT INTO wallets (user_id, encrypted_wallet, sequence, hmac) values(?,?,?,?)", userId, encryptedWallet, 1, hmac, ) var sqliteErr sqlite3.Error if errors.As(err, &sqliteErr) { // I initially expected to need to check for ErrConstraintUnique. // Maybe for psql it will be? if errors.Is(sqliteErr.ExtendedCode, sqlite3.ErrConstraintPrimaryKey) { err = ErrDuplicateWallet } } return } func (s *Store) updateWalletToSequence( userId auth.UserId, encryptedWallet wallet.EncryptedWallet, sequence wallet.Sequence, hmac wallet.WalletHmac, ) (err error) { // This will be used for wallets with sequence > 1. // Use the database to enforce that we only update if we are incrementing the sequence. // This way, if two clients attempt to update at the same time, it will return // ErrNoWallet for the second one. res, err := s.db.Exec( "UPDATE wallets SET encrypted_wallet=?, sequence=?, hmac=? WHERE user_id=? AND sequence=?", encryptedWallet, sequence, hmac, userId, sequence-1, ) if err != nil { return } numRows, err := res.RowsAffected() if err != nil { return } if numRows == 0 { err = ErrNoWallet } return } // Assumption: Sequence has been validated (>=1) func (s *Store) SetWallet(userId auth.UserId, encryptedWallet wallet.EncryptedWallet, sequence wallet.Sequence, hmac wallet.WalletHmac) (err error) { if sequence == 1 { // If sequence == 1, the client assumed that this is our first // wallet. Try to insert. If we get a conflict, the client // assumed incorrectly and we proceed below to return the latest // wallet from the db. err = s.insertFirstWallet(userId, encryptedWallet, hmac) if err == ErrDuplicateWallet { // A wallet already exists. That means the input sequence should not be 1. // To the caller, this means the sequence was wrong. err = ErrWrongSequence } } else { // If sequence > 1, the client assumed that it is replacing wallet // with sequence - 1. Explicitly try to update the wallet with // sequence - 1. If we updated no rows, the client assumed incorrectly // and we proceed below to return the latest wallet from the db. err = s.updateWalletToSequence(userId, encryptedWallet, sequence, hmac) if err == ErrNoWallet { // No wallet found to replace at the `sequence - 1`. To the caller, this // means the sequence they put in was wrong. err = ErrWrongSequence } } return } func (s *Store) GetUserId(email auth.Email, password auth.Password) (userId auth.UserId, err error) { rows, err := s.db.Query( `SELECT user_id from accounts WHERE email=? AND password=?`, email, password.Obfuscate(), ) if err != nil { return } defer rows.Close() for rows.Next() { err = rows.Scan(&userId) return } err = ErrNoUId return } ///////////// // Account // ///////////// func (s *Store) CreateAccount(email auth.Email, password auth.Password) (err error) { // userId auto-increments _, err = s.db.Exec( "INSERT INTO accounts (email, password) values(?,?)", email, password.Obfuscate(), ) var sqliteErr sqlite3.Error if errors.As(err, &sqliteErr) { if errors.Is(sqliteErr.ExtendedCode, sqlite3.ErrConstraintUnique) { err = ErrDuplicateAccount } } return }