package gorm import ( "context" "database/sql" "sync" ) type Stmt struct { *sql.Stmt Transaction bool prepared chan struct{} prepareErr error } type PreparedStmtDB struct { Stmts map[string]*Stmt PreparedSQL []string Mux *sync.RWMutex ConnPool } func (db *PreparedStmtDB) GetDBConn() (*sql.DB, error) { if dbConnector, ok := db.ConnPool.(GetDBConnector); ok && dbConnector != nil { return dbConnector.GetDBConn() } if sqldb, ok := db.ConnPool.(*sql.DB); ok { return sqldb, nil } return nil, ErrInvalidDB } func (db *PreparedStmtDB) Close() { db.Mux.Lock() defer db.Mux.Unlock() for _, query := range db.PreparedSQL { if stmt, ok := db.Stmts[query]; ok { delete(db.Stmts, query) go stmt.Close() } } } func (db *PreparedStmtDB) Reset() { db.Mux.Lock() defer db.Mux.Unlock() for query, stmt := range db.Stmts { delete(db.Stmts, query) go stmt.Close() } db.PreparedSQL = make([]string, 0, 100) db.Stmts = map[string](*Stmt){} } func (db *PreparedStmtDB) prepare(ctx context.Context, conn ConnPool, isTransaction bool, query string) (Stmt, error) { db.Mux.RLock() if stmt, ok := db.Stmts[query]; ok && (!stmt.Transaction || isTransaction) { db.Mux.RUnlock() // wait for other goroutines prepared <-stmt.prepared if stmt.prepareErr != nil { return Stmt{}, stmt.prepareErr } return *stmt, nil } db.Mux.RUnlock() db.Mux.Lock() // double check if stmt, ok := db.Stmts[query]; ok && (!stmt.Transaction || isTransaction) { db.Mux.Unlock() // wait for other goroutines prepared <-stmt.prepared if stmt.prepareErr != nil { return Stmt{}, stmt.prepareErr } return *stmt, nil } // cache preparing stmt first cacheStmt := Stmt{Transaction: isTransaction, prepared: make(chan struct{})} db.Stmts[query] = &cacheStmt db.Mux.Unlock() // prepare completed defer close(cacheStmt.prepared) // Reason why cannot lock conn.PrepareContext // suppose the maxopen is 1, g1 is creating record and g2 is querying record. // 1. g1 begin tx, g1 is requeued because of waiting for the system call, now `db.ConnPool` db.numOpen == 1. // 2. g2 select lock `conn.PrepareContext(ctx, query)`, now db.numOpen == db.maxOpen , wait for release. // 3. g1 tx exec insert, wait for unlock `conn.PrepareContext(ctx, query)` to finish tx and release. stmt, err := conn.PrepareContext(ctx, query) if err != nil { cacheStmt.prepareErr = err db.Mux.Lock() delete(db.Stmts, query) db.Mux.Unlock() return Stmt{}, err } db.Mux.Lock() cacheStmt.Stmt = stmt db.PreparedSQL = append(db.PreparedSQL, query) db.Mux.Unlock() return cacheStmt, nil } func (db *PreparedStmtDB) BeginTx(ctx context.Context, opt *sql.TxOptions) (ConnPool, error) { if beginner, ok := db.ConnPool.(TxBeginner); ok { tx, err := beginner.BeginTx(ctx, opt) return &PreparedStmtTX{PreparedStmtDB: db, Tx: tx}, err } return nil, ErrInvalidTransaction } func (db *PreparedStmtDB) ExecContext(ctx context.Context, query string, args ...interface{}) (result sql.Result, err error) { stmt, err := db.prepare(ctx, db.ConnPool, false, query) if err == nil { result, err = stmt.ExecContext(ctx, args...) if err != nil { db.Mux.Lock() defer db.Mux.Unlock() go stmt.Close() delete(db.Stmts, query) } } return result, err } func (db *PreparedStmtDB) QueryContext(ctx context.Context, query string, args ...interface{}) (rows *sql.Rows, err error) { stmt, err := db.prepare(ctx, db.ConnPool, false, query) if err == nil { rows, err = stmt.QueryContext(ctx, args...) if err != nil { db.Mux.Lock() defer db.Mux.Unlock() go stmt.Close() delete(db.Stmts, query) } } return rows, err } func (db *PreparedStmtDB) QueryRowContext(ctx context.Context, query string, args ...interface{}) *sql.Row { stmt, err := db.prepare(ctx, db.ConnPool, false, query) if err == nil { return stmt.QueryRowContext(ctx, args...) } return &sql.Row{} } type PreparedStmtTX struct { Tx PreparedStmtDB *PreparedStmtDB } func (tx *PreparedStmtTX) Commit() error { if tx.Tx != nil { return tx.Tx.Commit() } return ErrInvalidTransaction } func (tx *PreparedStmtTX) Rollback() error { if tx.Tx != nil { return tx.Tx.Rollback() } return ErrInvalidTransaction } func (tx *PreparedStmtTX) ExecContext(ctx context.Context, query string, args ...interface{}) (result sql.Result, err error) { stmt, err := tx.PreparedStmtDB.prepare(ctx, tx.Tx, true, query) if err == nil { result, err = tx.Tx.StmtContext(ctx, stmt.Stmt).ExecContext(ctx, args...) if err != nil { tx.PreparedStmtDB.Mux.Lock() defer tx.PreparedStmtDB.Mux.Unlock() go stmt.Close() delete(tx.PreparedStmtDB.Stmts, query) } } return result, err } func (tx *PreparedStmtTX) QueryContext(ctx context.Context, query string, args ...interface{}) (rows *sql.Rows, err error) { stmt, err := tx.PreparedStmtDB.prepare(ctx, tx.Tx, true, query) if err == nil { rows, err = tx.Tx.StmtContext(ctx, stmt.Stmt).QueryContext(ctx, args...) if err != nil { tx.PreparedStmtDB.Mux.Lock() defer tx.PreparedStmtDB.Mux.Unlock() go stmt.Close() delete(tx.PreparedStmtDB.Stmts, query) } } return rows, err } func (tx *PreparedStmtTX) QueryRowContext(ctx context.Context, query string, args ...interface{}) *sql.Row { stmt, err := tx.PreparedStmtDB.prepare(ctx, tx.Tx, true, query) if err == nil { return tx.Tx.StmtContext(ctx, stmt.Stmt).QueryRowContext(ctx, args...) } return &sql.Row{} }