// Copyright 2011 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package sql import ( "context" "database/sql/driver" "errors" "fmt" "internal/race" "internal/testenv" "math/rand" "reflect" "runtime" "slices" "strings" "sync" "sync/atomic" "testing" "time" ) func init() { type dbConn struct { db *DB c *driverConn } freedFrom := make(map[dbConn]string) var mu sync.Mutex getFreedFrom := func(c dbConn) string { mu.Lock() defer mu.Unlock() return freedFrom[c] } setFreedFrom := func(c dbConn, s string) { mu.Lock() defer mu.Unlock() freedFrom[c] = s } putConnHook = func(db *DB, c *driverConn) { if slices.Contains(db.freeConn, c) { // print before panic, as panic may get lost due to conflicting panic // (all goroutines asleep) elsewhere, since we might not unlock // the mutex in freeConn here. println("double free of conn. conflicts are:\nA) " + getFreedFrom(dbConn{db, c}) + "\n\nand\nB) " + stack()) panic("double free of conn.") } setFreedFrom(dbConn{db, c}, stack()) } } // pollDuration is an arbitrary interval to wait between checks when polling for // a condition to occur. const pollDuration = 5 * time.Millisecond const fakeDBName = "foo" var chrisBirthday = time.Unix(123456789, 0) func newTestDB(t testing.TB, name string) *DB { return newTestDBConnector(t, &fakeConnector{name: fakeDBName}, name) } func newTestDBConnector(t testing.TB, fc *fakeConnector, name string) *DB { fc.name = fakeDBName db := OpenDB(fc) if _, err := db.Exec("WIPE"); err != nil { t.Fatalf("exec wipe: %v", err) } if name == "people" { exec(t, db, "CREATE|people|name=string,age=int32,photo=blob,dead=bool,bdate=datetime") exec(t, db, "INSERT|people|name=Alice,age=?,photo=APHOTO", 1) exec(t, db, "INSERT|people|name=Bob,age=?,photo=BPHOTO", 2) exec(t, db, "INSERT|people|name=Chris,age=?,photo=CPHOTO,bdate=?", 3, chrisBirthday) } if name == "magicquery" { // Magic table name and column, known by fakedb_test.go. exec(t, db, "CREATE|magicquery|op=string,millis=int32") exec(t, db, "INSERT|magicquery|op=sleep,millis=10") } if name == "tx_status" { // Magic table name and column, known by fakedb_test.go. exec(t, db, "CREATE|tx_status|tx_status=string") exec(t, db, "INSERT|tx_status|tx_status=invalid") } return db } func TestOpenDB(t *testing.T) { db := OpenDB(dsnConnector{dsn: fakeDBName, driver: fdriver}) if db.Driver() != fdriver { t.Fatalf("OpenDB should return the driver of the Connector") } } func TestDriverPanic(t *testing.T) { // Test that if driver panics, database/sql does not deadlock. db, err := Open("test", fakeDBName) if err != nil { t.Fatalf("Open: %v", err) } expectPanic := func(name string, f func()) { defer func() { err := recover() if err == nil { t.Fatalf("%s did not panic", name) } }() f() } expectPanic("Exec Exec", func() { db.Exec("PANIC|Exec|WIPE") }) exec(t, db, "WIPE") // check not deadlocked expectPanic("Exec NumInput", func() { db.Exec("PANIC|NumInput|WIPE") }) exec(t, db, "WIPE") // check not deadlocked expectPanic("Exec Close", func() { db.Exec("PANIC|Close|WIPE") }) exec(t, db, "WIPE") // check not deadlocked exec(t, db, "PANIC|Query|WIPE") // should run successfully: Exec does not call Query exec(t, db, "WIPE") // check not deadlocked exec(t, db, "CREATE|people|name=string,age=int32,photo=blob,dead=bool,bdate=datetime") expectPanic("Query Query", func() { db.Query("PANIC|Query|SELECT|people|age,name|") }) expectPanic("Query NumInput", func() { db.Query("PANIC|NumInput|SELECT|people|age,name|") }) expectPanic("Query Close", func() { rows, err := db.Query("PANIC|Close|SELECT|people|age,name|") if err != nil { t.Fatal(err) } rows.Close() }) db.Query("PANIC|Exec|SELECT|people|age,name|") // should run successfully: Query does not call Exec exec(t, db, "WIPE") // check not deadlocked } func exec(t testing.TB, db *DB, query string, args ...any) { t.Helper() _, err := db.Exec(query, args...) if err != nil { t.Fatalf("Exec of %q: %v", query, err) } } func closeDB(t testing.TB, db *DB) { if e := recover(); e != nil { fmt.Printf("Panic: %v\n", e) panic(e) } defer setHookpostCloseConn(nil) setHookpostCloseConn(func(_ *fakeConn, err error) { if err != nil { t.Errorf("Error closing fakeConn: %v", err) } }) db.mu.Lock() for i, dc := range db.freeConn { if n := len(dc.openStmt); n > 0 { // Just a sanity check. This is legal in // general, but if we make the tests clean up // their statements first, then we can safely // verify this is always zero here, and any // other value is a leak. t.Errorf("while closing db, freeConn %d/%d had %d open stmts; want 0", i, len(db.freeConn), n) } } db.mu.Unlock() err := db.Close() if err != nil { t.Fatalf("error closing DB: %v", err) } var numOpen int if !waitCondition(t, func() bool { numOpen = db.numOpenConns() return numOpen == 0 }) { t.Fatalf("%d connections still open after closing DB", numOpen) } } // numPrepares assumes that db has exactly 1 idle conn and returns // its count of calls to Prepare func numPrepares(t *testing.T, db *DB) int { if n := len(db.freeConn); n != 1 { t.Fatalf("free conns = %d; want 1", n) } return db.freeConn[0].ci.(*fakeConn).numPrepare } func (db *DB) numDeps() int { db.mu.Lock() defer db.mu.Unlock() return len(db.dep) } // Dependencies are closed via a goroutine, so this polls waiting for // numDeps to fall to want, waiting up to nearly the test's deadline. func (db *DB) numDepsPoll(t *testing.T, want int) int { var n int waitCondition(t, func() bool { n = db.numDeps() return n <= want }) return n } func (db *DB) numFreeConns() int { db.mu.Lock() defer db.mu.Unlock() return len(db.freeConn) } func (db *DB) numOpenConns() int { db.mu.Lock() defer db.mu.Unlock() return db.numOpen } // clearAllConns closes all connections in db. func (db *DB) clearAllConns(t *testing.T) { db.SetMaxIdleConns(0) if g, w := db.numFreeConns(), 0; g != w { t.Errorf("free conns = %d; want %d", g, w) } if n := db.numDepsPoll(t, 0); n > 0 { t.Errorf("number of dependencies = %d; expected 0", n) db.dumpDeps(t) } } func (db *DB) dumpDeps(t *testing.T) { for fc := range db.dep { db.dumpDep(t, 0, fc, map[finalCloser]bool{}) } } func (db *DB) dumpDep(t *testing.T, depth int, dep finalCloser, seen map[finalCloser]bool) { seen[dep] = true indent := strings.Repeat(" ", depth) ds := db.dep[dep] for k := range ds { t.Logf("%s%T (%p) waiting for -> %T (%p)", indent, dep, dep, k, k) if fc, ok := k.(finalCloser); ok { if !seen[fc] { db.dumpDep(t, depth+1, fc, seen) } } } } func TestQuery(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) prepares0 := numPrepares(t, db) rows, err := db.Query("SELECT|people|age,name|") if err != nil { t.Fatalf("Query: %v", err) } defer rows.Close() type row struct { age int name string } got := []row{} for rows.Next() { var r row err = rows.Scan(&r.age, &r.name) if err != nil { t.Fatalf("Scan: %v", err) } got = append(got, r) } err = rows.Err() if err != nil { t.Fatalf("Err: %v", err) } want := []row{ {age: 1, name: "Alice"}, {age: 2, name: "Bob"}, {age: 3, name: "Chris"}, } if !slices.Equal(got, want) { t.Errorf("mismatch.\n got: %#v\nwant: %#v", got, want) } // And verify that the final rows.Next() call, which hit EOF, // also closed the rows connection. if n := db.numFreeConns(); n != 1 { t.Fatalf("free conns after query hitting EOF = %d; want 1", n) } if prepares := numPrepares(t, db) - prepares0; prepares != 1 { t.Errorf("executed %d Prepare statements; want 1", prepares) } } // TestQueryContext tests canceling the context while scanning the rows. func TestQueryContext(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) prepares0 := numPrepares(t, db) ctx, cancel := context.WithCancel(context.Background()) defer cancel() rows, err := db.QueryContext(ctx, "SELECT|people|age,name|") if err != nil { t.Fatalf("Query: %v", err) } type row struct { age int name string } got := []row{} index := 0 for rows.Next() { if index == 2 { cancel() waitForRowsClose(t, rows) } var r row err = rows.Scan(&r.age, &r.name) if err != nil { if index == 2 { break } t.Fatalf("Scan: %v", err) } if index == 2 && err != context.Canceled { t.Fatalf("Scan: %v; want context.Canceled", err) } got = append(got, r) index++ } select { case <-ctx.Done(): if err := ctx.Err(); err != context.Canceled { t.Fatalf("context err = %v; want context.Canceled", err) } default: t.Fatalf("context err = nil; want context.Canceled") } want := []row{ {age: 1, name: "Alice"}, {age: 2, name: "Bob"}, } if !slices.Equal(got, want) { t.Errorf("mismatch.\n got: %#v\nwant: %#v", got, want) } // And verify that the final rows.Next() call, which hit EOF, // also closed the rows connection. waitForRowsClose(t, rows) waitForFree(t, db, 1) if prepares := numPrepares(t, db) - prepares0; prepares != 1 { t.Errorf("executed %d Prepare statements; want 1", prepares) } } func waitCondition(t testing.TB, fn func() bool) bool { timeout := 5 * time.Second type deadliner interface { Deadline() (time.Time, bool) } if td, ok := t.(deadliner); ok { if deadline, ok := td.Deadline(); ok { timeout = time.Until(deadline) timeout = timeout * 19 / 20 // Give 5% headroom for cleanup and error-reporting. } } deadline := time.Now().Add(timeout) for { if fn() { return true } if time.Until(deadline) < pollDuration { return false } time.Sleep(pollDuration) } } // waitForFree checks db.numFreeConns until either it equals want or // the maxWait time elapses. func waitForFree(t *testing.T, db *DB, want int) { var numFree int if !waitCondition(t, func() bool { numFree = db.numFreeConns() return numFree == want }) { t.Fatalf("free conns after hitting EOF = %d; want %d", numFree, want) } } func waitForRowsClose(t *testing.T, rows *Rows) { if !waitCondition(t, func() bool { rows.closemu.RLock() defer rows.closemu.RUnlock() return rows.closed }) { t.Fatal("failed to close rows") } } // TestQueryContextWait ensures that rows and all internal statements are closed when // a query context is closed during execution. func TestQueryContextWait(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) prepares0 := numPrepares(t, db) ctx, cancel := context.WithCancel(context.Background()) defer cancel() // This will trigger the *fakeConn.Prepare method which will take time // performing the query. The ctxDriverPrepare func will check the context // after this and close the rows and return an error. c, err := db.Conn(ctx) if err != nil { t.Fatal(err) } c.dc.ci.(*fakeConn).waiter = func(c context.Context) { cancel() <-ctx.Done() } _, err = c.QueryContext(ctx, "SELECT|people|age,name|") c.Close() if err != context.Canceled { t.Fatalf("expected QueryContext to error with context deadline exceeded but returned %v", err) } // Verify closed rows connection after error condition. waitForFree(t, db, 1) if prepares := numPrepares(t, db) - prepares0; prepares != 1 { t.Fatalf("executed %d Prepare statements; want 1", prepares) } } // TestTxContextWait tests the transaction behavior when the tx context is canceled // during execution of the query. func TestTxContextWait(t *testing.T) { testContextWait(t, false) } // TestTxContextWaitNoDiscard is the same as TestTxContextWait, but should not discard // the final connection. func TestTxContextWaitNoDiscard(t *testing.T) { testContextWait(t, true) } func testContextWait(t *testing.T, keepConnOnRollback bool) { db := newTestDB(t, "people") defer closeDB(t, db) ctx, cancel := context.WithCancel(context.Background()) tx, err := db.BeginTx(ctx, nil) if err != nil { t.Fatal(err) } tx.keepConnOnRollback = keepConnOnRollback tx.dc.ci.(*fakeConn).waiter = func(c context.Context) { cancel() <-ctx.Done() } // This will trigger the *fakeConn.Prepare method which will take time // performing the query. The ctxDriverPrepare func will check the context // after this and close the rows and return an error. _, err = tx.QueryContext(ctx, "SELECT|people|age,name|") if err != context.Canceled { t.Fatalf("expected QueryContext to error with context canceled but returned %v", err) } if keepConnOnRollback { waitForFree(t, db, 1) } else { waitForFree(t, db, 0) } } // TestUnsupportedOptions checks that the database fails when a driver that // doesn't implement ConnBeginTx is used with non-default options and an // un-cancellable context. func TestUnsupportedOptions(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) _, err := db.BeginTx(context.Background(), &TxOptions{ Isolation: LevelSerializable, ReadOnly: true, }) if err == nil { t.Fatal("expected error when using unsupported options, got nil") } } func TestMultiResultSetQuery(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) prepares0 := numPrepares(t, db) rows, err := db.Query("SELECT|people|age,name|;SELECT|people|name|") if err != nil { t.Fatalf("Query: %v", err) } type row1 struct { age int name string } type row2 struct { name string } got1 := []row1{} for rows.Next() { var r row1 err = rows.Scan(&r.age, &r.name) if err != nil { t.Fatalf("Scan: %v", err) } got1 = append(got1, r) } err = rows.Err() if err != nil { t.Fatalf("Err: %v", err) } want1 := []row1{ {age: 1, name: "Alice"}, {age: 2, name: "Bob"}, {age: 3, name: "Chris"}, } if !slices.Equal(got1, want1) { t.Errorf("mismatch.\n got1: %#v\nwant: %#v", got1, want1) } if !rows.NextResultSet() { t.Errorf("expected another result set") } got2 := []row2{} for rows.Next() { var r row2 err = rows.Scan(&r.name) if err != nil { t.Fatalf("Scan: %v", err) } got2 = append(got2, r) } err = rows.Err() if err != nil { t.Fatalf("Err: %v", err) } want2 := []row2{ {name: "Alice"}, {name: "Bob"}, {name: "Chris"}, } if !slices.Equal(got2, want2) { t.Errorf("mismatch.\n got: %#v\nwant: %#v", got2, want2) } if rows.NextResultSet() { t.Errorf("expected no more result sets") } // And verify that the final rows.Next() call, which hit EOF, // also closed the rows connection. waitForFree(t, db, 1) if prepares := numPrepares(t, db) - prepares0; prepares != 1 { t.Errorf("executed %d Prepare statements; want 1", prepares) } } func TestQueryNamedArg(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) prepares0 := numPrepares(t, db) rows, err := db.Query( // Ensure the name and age parameters only match on placeholder name, not position. "SELECT|people|age,name|name=?name,age=?age", Named("age", 2), Named("name", "Bob"), ) if err != nil { t.Fatalf("Query: %v", err) } type row struct { age int name string } got := []row{} for rows.Next() { var r row err = rows.Scan(&r.age, &r.name) if err != nil { t.Fatalf("Scan: %v", err) } got = append(got, r) } err = rows.Err() if err != nil { t.Fatalf("Err: %v", err) } want := []row{ {age: 2, name: "Bob"}, } if !slices.Equal(got, want) { t.Errorf("mismatch.\n got: %#v\nwant: %#v", got, want) } // And verify that the final rows.Next() call, which hit EOF, // also closed the rows connection. if n := db.numFreeConns(); n != 1 { t.Fatalf("free conns after query hitting EOF = %d; want 1", n) } if prepares := numPrepares(t, db) - prepares0; prepares != 1 { t.Errorf("executed %d Prepare statements; want 1", prepares) } } func TestPoolExhaustOnCancel(t *testing.T) { if testing.Short() { t.Skip("long test") } max := 3 var saturate, saturateDone sync.WaitGroup saturate.Add(max) saturateDone.Add(max) donePing := make(chan bool) state := 0 // waiter will be called for all queries, including // initial setup queries. The state is only assigned when // no queries are made. // // Only allow the first batch of queries to finish once the // second batch of Ping queries have finished. waiter := func(ctx context.Context) { switch state { case 0: // Nothing. Initial database setup. case 1: saturate.Done() select { case <-ctx.Done(): case <-donePing: } case 2: } } db := newTestDBConnector(t, &fakeConnector{waiter: waiter}, "people") defer closeDB(t, db) db.SetMaxOpenConns(max) // First saturate the connection pool. // Then start new requests for a connection that is canceled after it is requested. state = 1 for i := 0; i < max; i++ { go func() { rows, err := db.Query("SELECT|people|name,photo|") if err != nil { t.Errorf("Query: %v", err) return } rows.Close() saturateDone.Done() }() } saturate.Wait() if t.Failed() { t.FailNow() } state = 2 // Now cancel the request while it is waiting. ctx, cancel := context.WithTimeout(context.Background(), 2*time.Second) defer cancel() for i := 0; i < max; i++ { ctxReq, cancelReq := context.WithCancel(ctx) go func() { time.Sleep(100 * time.Millisecond) cancelReq() }() err := db.PingContext(ctxReq) if err != context.Canceled { t.Fatalf("PingContext (Exhaust): %v", err) } } close(donePing) saturateDone.Wait() // Now try to open a normal connection. err := db.PingContext(ctx) if err != nil { t.Fatalf("PingContext (Normal): %v", err) } } func TestRowsColumns(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) rows, err := db.Query("SELECT|people|age,name|") if err != nil { t.Fatalf("Query: %v", err) } cols, err := rows.Columns() if err != nil { t.Fatalf("Columns: %v", err) } want := []string{"age", "name"} if !slices.Equal(cols, want) { t.Errorf("got %#v; want %#v", cols, want) } if err := rows.Close(); err != nil { t.Errorf("error closing rows: %s", err) } } func TestRowsColumnTypes(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) rows, err := db.Query("SELECT|people|age,name|") if err != nil { t.Fatalf("Query: %v", err) } tt, err := rows.ColumnTypes() if err != nil { t.Fatalf("ColumnTypes: %v", err) } types := make([]reflect.Type, len(tt)) for i, tp := range tt { st := tp.ScanType() if st == nil { t.Errorf("scantype is null for column %q", tp.Name()) continue } types[i] = st } values := make([]any, len(tt)) for i := range values { values[i] = reflect.New(types[i]).Interface() } ct := 0 for rows.Next() { err = rows.Scan(values...) if err != nil { t.Fatalf("failed to scan values in %v", err) } if ct == 1 { if age := *values[0].(*int32); age != 2 { t.Errorf("Expected 2, got %v", age) } if name := *values[1].(*string); name != "Bob" { t.Errorf("Expected Bob, got %v", name) } } ct++ } if ct != 3 { t.Errorf("expected 3 rows, got %d", ct) } if err := rows.Close(); err != nil { t.Errorf("error closing rows: %s", err) } } func TestQueryRow(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) var name string var age int var birthday time.Time err := db.QueryRow("SELECT|people|age,name|age=?", 3).Scan(&age) if err == nil || !strings.Contains(err.Error(), "expected 2 destination arguments") { t.Errorf("expected error from wrong number of arguments; actually got: %v", err) } err = db.QueryRow("SELECT|people|bdate|age=?", 3).Scan(&birthday) if err != nil || !birthday.Equal(chrisBirthday) { t.Errorf("chris birthday = %v, err = %v; want %v", birthday, err, chrisBirthday) } err = db.QueryRow("SELECT|people|age,name|age=?", 2).Scan(&age, &name) if err != nil { t.Fatalf("age QueryRow+Scan: %v", err) } if name != "Bob" { t.Errorf("expected name Bob, got %q", name) } if age != 2 { t.Errorf("expected age 2, got %d", age) } err = db.QueryRow("SELECT|people|age,name|name=?", "Alice").Scan(&age, &name) if err != nil { t.Fatalf("name QueryRow+Scan: %v", err) } if name != "Alice" { t.Errorf("expected name Alice, got %q", name) } if age != 1 { t.Errorf("expected age 1, got %d", age) } var photo []byte err = db.QueryRow("SELECT|people|photo|name=?", "Alice").Scan(&photo) if err != nil { t.Fatalf("photo QueryRow+Scan: %v", err) } want := []byte("APHOTO") if !slices.Equal(photo, want) { t.Errorf("photo = %q; want %q", photo, want) } } func TestRowErr(t *testing.T) { db := newTestDB(t, "people") err := db.QueryRowContext(context.Background(), "SELECT|people|bdate|age=?", 3).Err() if err != nil { t.Errorf("Unexpected err = %v; want %v", err, nil) } ctx, cancel := context.WithCancel(context.Background()) cancel() err = db.QueryRowContext(ctx, "SELECT|people|bdate|age=?", 3).Err() exp := "context canceled" if err == nil || !strings.Contains(err.Error(), exp) { t.Errorf("Expected err = %v; got %v", exp, err) } } func TestTxRollbackCommitErr(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) tx, err := db.Begin() if err != nil { t.Fatal(err) } err = tx.Rollback() if err != nil { t.Errorf("expected nil error from Rollback; got %v", err) } err = tx.Commit() if err != ErrTxDone { t.Errorf("expected %q from Commit; got %q", ErrTxDone, err) } tx, err = db.Begin() if err != nil { t.Fatal(err) } err = tx.Commit() if err != nil { t.Errorf("expected nil error from Commit; got %v", err) } err = tx.Rollback() if err != ErrTxDone { t.Errorf("expected %q from Rollback; got %q", ErrTxDone, err) } } func TestStatementErrorAfterClose(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) stmt, err := db.Prepare("SELECT|people|age|name=?") if err != nil { t.Fatalf("Prepare: %v", err) } err = stmt.Close() if err != nil { t.Fatalf("Close: %v", err) } var name string err = stmt.QueryRow("foo").Scan(&name) if err == nil { t.Errorf("expected error from QueryRow.Scan after Stmt.Close") } } func TestStatementQueryRow(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) stmt, err := db.Prepare("SELECT|people|age|name=?") if err != nil { t.Fatalf("Prepare: %v", err) } defer stmt.Close() var age int for n, tt := range []struct { name string want int }{ {"Alice", 1}, {"Bob", 2}, {"Chris", 3}, } { if err := stmt.QueryRow(tt.name).Scan(&age); err != nil { t.Errorf("%d: on %q, QueryRow/Scan: %v", n, tt.name, err) } else if age != tt.want { t.Errorf("%d: age=%d, want %d", n, age, tt.want) } } } type stubDriverStmt struct { err error } func (s stubDriverStmt) Close() error { return s.err } func (s stubDriverStmt) NumInput() int { return -1 } func (s stubDriverStmt) Exec(args []driver.Value) (driver.Result, error) { return nil, nil } func (s stubDriverStmt) Query(args []driver.Value) (driver.Rows, error) { return nil, nil } // golang.org/issue/12798 func TestStatementClose(t *testing.T) { want := errors.New("STMT ERROR") tests := []struct { stmt *Stmt msg string }{ {&Stmt{stickyErr: want}, "stickyErr not propagated"}, {&Stmt{cg: &Tx{}, cgds: &driverStmt{Locker: &sync.Mutex{}, si: stubDriverStmt{want}}}, "driverStmt.Close() error not propagated"}, } for _, test := range tests { if err := test.stmt.Close(); err != want { t.Errorf("%s. Got stmt.Close() = %v, want = %v", test.msg, err, want) } } } // golang.org/issue/3734 func TestStatementQueryRowConcurrent(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) stmt, err := db.Prepare("SELECT|people|age|name=?") if err != nil { t.Fatalf("Prepare: %v", err) } defer stmt.Close() const n = 10 ch := make(chan error, n) for i := 0; i < n; i++ { go func() { var age int err := stmt.QueryRow("Alice").Scan(&age) if err == nil && age != 1 { err = fmt.Errorf("unexpected age %d", age) } ch <- err }() } for i := 0; i < n; i++ { if err := <-ch; err != nil { t.Error(err) } } } // just a test of fakedb itself func TestBogusPreboundParameters(t *testing.T) { db := newTestDB(t, "foo") defer closeDB(t, db) exec(t, db, "CREATE|t1|name=string,age=int32,dead=bool") _, err := db.Prepare("INSERT|t1|name=?,age=bogusconversion") if err == nil { t.Fatalf("expected error") } if err.Error() != `fakedb: invalid conversion to int32 from "bogusconversion"` { t.Errorf("unexpected error: %v", err) } } func TestExec(t *testing.T) { db := newTestDB(t, "foo") defer closeDB(t, db) exec(t, db, "CREATE|t1|name=string,age=int32,dead=bool") stmt, err := db.Prepare("INSERT|t1|name=?,age=?") if err != nil { t.Errorf("Stmt, err = %v, %v", stmt, err) } defer stmt.Close() type execTest struct { args []any wantErr string } execTests := []execTest{ // Okay: {[]any{"Brad", 31}, ""}, {[]any{"Brad", int64(31)}, ""}, {[]any{"Bob", "32"}, ""}, {[]any{7, 9}, ""}, // Invalid conversions: {[]any{"Brad", int64(0xFFFFFFFF)}, "sql: converting argument $2 type: sql/driver: value 4294967295 overflows int32"}, {[]any{"Brad", "strconv fail"}, `sql: converting argument $2 type: sql/driver: value "strconv fail" can't be converted to int32`}, // Wrong number of args: {[]any{}, "sql: expected 2 arguments, got 0"}, {[]any{1, 2, 3}, "sql: expected 2 arguments, got 3"}, } for n, et := range execTests { _, err := stmt.Exec(et.args...) errStr := "" if err != nil { errStr = err.Error() } if errStr != et.wantErr { t.Errorf("stmt.Execute #%d: for %v, got error %q, want error %q", n, et.args, errStr, et.wantErr) } } } func TestTxPrepare(t *testing.T) { db := newTestDB(t, "") defer closeDB(t, db) exec(t, db, "CREATE|t1|name=string,age=int32,dead=bool") tx, err := db.Begin() if err != nil { t.Fatalf("Begin = %v", err) } stmt, err := tx.Prepare("INSERT|t1|name=?,age=?") if err != nil { t.Fatalf("Stmt, err = %v, %v", stmt, err) } defer stmt.Close() _, err = stmt.Exec("Bobby", 7) if err != nil { t.Fatalf("Exec = %v", err) } err = tx.Commit() if err != nil { t.Fatalf("Commit = %v", err) } // Commit() should have closed the statement if !stmt.closed { t.Fatal("Stmt not closed after Commit") } } func TestTxStmt(t *testing.T) { db := newTestDB(t, "") defer closeDB(t, db) exec(t, db, "CREATE|t1|name=string,age=int32,dead=bool") stmt, err := db.Prepare("INSERT|t1|name=?,age=?") if err != nil { t.Fatalf("Stmt, err = %v, %v", stmt, err) } defer stmt.Close() tx, err := db.Begin() if err != nil { t.Fatalf("Begin = %v", err) } txs := tx.Stmt(stmt) defer txs.Close() _, err = txs.Exec("Bobby", 7) if err != nil { t.Fatalf("Exec = %v", err) } err = tx.Commit() if err != nil { t.Fatalf("Commit = %v", err) } // Commit() should have closed the statement if !txs.closed { t.Fatal("Stmt not closed after Commit") } } func TestTxStmtPreparedOnce(t *testing.T) { db := newTestDB(t, "") defer closeDB(t, db) exec(t, db, "CREATE|t1|name=string,age=int32") prepares0 := numPrepares(t, db) // db.Prepare increments numPrepares. stmt, err := db.Prepare("INSERT|t1|name=?,age=?") if err != nil { t.Fatalf("Stmt, err = %v, %v", stmt, err) } defer stmt.Close() tx, err := db.Begin() if err != nil { t.Fatalf("Begin = %v", err) } txs1 := tx.Stmt(stmt) txs2 := tx.Stmt(stmt) _, err = txs1.Exec("Go", 7) if err != nil { t.Fatalf("Exec = %v", err) } txs1.Close() _, err = txs2.Exec("Gopher", 8) if err != nil { t.Fatalf("Exec = %v", err) } txs2.Close() err = tx.Commit() if err != nil { t.Fatalf("Commit = %v", err) } if prepares := numPrepares(t, db) - prepares0; prepares != 1 { t.Errorf("executed %d Prepare statements; want 1", prepares) } } func TestTxStmtClosedRePrepares(t *testing.T) { db := newTestDB(t, "") defer closeDB(t, db) exec(t, db, "CREATE|t1|name=string,age=int32") prepares0 := numPrepares(t, db) // db.Prepare increments numPrepares. stmt, err := db.Prepare("INSERT|t1|name=?,age=?") if err != nil { t.Fatalf("Stmt, err = %v, %v", stmt, err) } tx, err := db.Begin() if err != nil { t.Fatalf("Begin = %v", err) } err = stmt.Close() if err != nil { t.Fatalf("stmt.Close() = %v", err) } // tx.Stmt increments numPrepares because stmt is closed. txs := tx.Stmt(stmt) if txs.stickyErr != nil { t.Fatal(txs.stickyErr) } if txs.parentStmt != nil { t.Fatal("expected nil parentStmt") } _, err = txs.Exec(`Eric`, 82) if err != nil { t.Fatalf("txs.Exec = %v", err) } err = txs.Close() if err != nil { t.Fatalf("txs.Close = %v", err) } tx.Rollback() if prepares := numPrepares(t, db) - prepares0; prepares != 2 { t.Errorf("executed %d Prepare statements; want 2", prepares) } } func TestParentStmtOutlivesTxStmt(t *testing.T) { db := newTestDB(t, "") defer closeDB(t, db) exec(t, db, "CREATE|t1|name=string,age=int32") // Make sure everything happens on the same connection. db.SetMaxOpenConns(1) prepares0 := numPrepares(t, db) // db.Prepare increments numPrepares. stmt, err := db.Prepare("INSERT|t1|name=?,age=?") if err != nil { t.Fatalf("Stmt, err = %v, %v", stmt, err) } defer stmt.Close() tx, err := db.Begin() if err != nil { t.Fatalf("Begin = %v", err) } txs := tx.Stmt(stmt) if len(stmt.css) != 1 { t.Fatalf("len(stmt.css) = %v; want 1", len(stmt.css)) } err = txs.Close() if err != nil { t.Fatalf("txs.Close() = %v", err) } err = tx.Rollback() if err != nil { t.Fatalf("tx.Rollback() = %v", err) } // txs must not be valid. _, err = txs.Exec("Suzan", 30) if err == nil { t.Fatalf("txs.Exec(), expected err") } // Stmt must still be valid. _, err = stmt.Exec("Janina", 25) if err != nil { t.Fatalf("stmt.Exec() = %v", err) } if prepares := numPrepares(t, db) - prepares0; prepares != 1 { t.Errorf("executed %d Prepare statements; want 1", prepares) } } // Test that tx.Stmt called with a statement already // associated with tx as argument re-prepares the same // statement again. func TestTxStmtFromTxStmtRePrepares(t *testing.T) { db := newTestDB(t, "") defer closeDB(t, db) exec(t, db, "CREATE|t1|name=string,age=int32") prepares0 := numPrepares(t, db) // db.Prepare increments numPrepares. stmt, err := db.Prepare("INSERT|t1|name=?,age=?") if err != nil { t.Fatalf("Stmt, err = %v, %v", stmt, err) } defer stmt.Close() tx, err := db.Begin() if err != nil { t.Fatalf("Begin = %v", err) } txs1 := tx.Stmt(stmt) // tx.Stmt(txs1) increments numPrepares because txs1 already // belongs to a transaction (albeit the same transaction). txs2 := tx.Stmt(txs1) if txs2.stickyErr != nil { t.Fatal(txs2.stickyErr) } if txs2.parentStmt != nil { t.Fatal("expected nil parentStmt") } _, err = txs2.Exec(`Eric`, 82) if err != nil { t.Fatal(err) } err = txs1.Close() if err != nil { t.Fatalf("txs1.Close = %v", err) } err = txs2.Close() if err != nil { t.Fatalf("txs1.Close = %v", err) } err = tx.Rollback() if err != nil { t.Fatalf("tx.Rollback = %v", err) } if prepares := numPrepares(t, db) - prepares0; prepares != 2 { t.Errorf("executed %d Prepare statements; want 2", prepares) } } // Issue: https://golang.org/issue/2784 // This test didn't fail before because we got lucky with the fakedb driver. // It was failing, and now not, in github.com/bradfitz/go-sql-test func TestTxQuery(t *testing.T) { db := newTestDB(t, "") defer closeDB(t, db) exec(t, db, "CREATE|t1|name=string,age=int32,dead=bool") exec(t, db, "INSERT|t1|name=Alice") tx, err := db.Begin() if err != nil { t.Fatal(err) } defer tx.Rollback() r, err := tx.Query("SELECT|t1|name|") if err != nil { t.Fatal(err) } defer r.Close() if !r.Next() { if r.Err() != nil { t.Fatal(r.Err()) } t.Fatal("expected one row") } var x string err = r.Scan(&x) if err != nil { t.Fatal(err) } } func TestTxQueryInvalid(t *testing.T) { db := newTestDB(t, "") defer closeDB(t, db) tx, err := db.Begin() if err != nil { t.Fatal(err) } defer tx.Rollback() _, err = tx.Query("SELECT|t1|name|") if err == nil { t.Fatal("Error expected") } } // Tests fix for issue 4433, that retries in Begin happen when // conn.Begin() returns ErrBadConn func TestTxErrBadConn(t *testing.T) { db, err := Open("test", fakeDBName+";badConn") if err != nil { t.Fatalf("Open: %v", err) } if _, err := db.Exec("WIPE"); err != nil { t.Fatalf("exec wipe: %v", err) } defer closeDB(t, db) exec(t, db, "CREATE|t1|name=string,age=int32,dead=bool") stmt, err := db.Prepare("INSERT|t1|name=?,age=?") if err != nil { t.Fatalf("Stmt, err = %v, %v", stmt, err) } defer stmt.Close() tx, err := db.Begin() if err != nil { t.Fatalf("Begin = %v", err) } txs := tx.Stmt(stmt) defer txs.Close() _, err = txs.Exec("Bobby", 7) if err != nil { t.Fatalf("Exec = %v", err) } err = tx.Commit() if err != nil { t.Fatalf("Commit = %v", err) } } func TestConnQuery(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) ctx, cancel := context.WithCancel(context.Background()) defer cancel() conn, err := db.Conn(ctx) if err != nil { t.Fatal(err) } conn.dc.ci.(*fakeConn).skipDirtySession = true defer conn.Close() var name string err = conn.QueryRowContext(ctx, "SELECT|people|name|age=?", 3).Scan(&name) if err != nil { t.Fatal(err) } if name != "Chris" { t.Fatalf("unexpected result, got %q want Chris", name) } err = conn.PingContext(ctx) if err != nil { t.Fatal(err) } } func TestConnRaw(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) ctx, cancel := context.WithCancel(context.Background()) defer cancel() conn, err := db.Conn(ctx) if err != nil { t.Fatal(err) } conn.dc.ci.(*fakeConn).skipDirtySession = true defer conn.Close() sawFunc := false err = conn.Raw(func(dc any) error { sawFunc = true if _, ok := dc.(*fakeConn); !ok { return fmt.Errorf("got %T want *fakeConn", dc) } return nil }) if err != nil { t.Fatal(err) } if !sawFunc { t.Fatal("Raw func not called") } func() { defer func() { x := recover() if x == nil { t.Fatal("expected panic") } conn.closemu.Lock() closed := conn.dc == nil conn.closemu.Unlock() if !closed { t.Fatal("expected connection to be closed after panic") } }() err = conn.Raw(func(dc any) error { panic("Conn.Raw panic should return an error") }) t.Fatal("expected panic from Raw func") }() } func TestCursorFake(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) ctx, cancel := context.WithTimeout(context.Background(), time.Second*30) defer cancel() exec(t, db, "CREATE|peoplecursor|list=table") exec(t, db, "INSERT|peoplecursor|list=people!name!age") rows, err := db.QueryContext(ctx, `SELECT|peoplecursor|list|`) if err != nil { t.Fatal(err) } defer rows.Close() if !rows.Next() { t.Fatal("no rows") } var cursor = &Rows{} err = rows.Scan(cursor) if err != nil { t.Fatal(err) } defer cursor.Close() const expectedRows = 3 var currentRow int64 var n int64 var s string for cursor.Next() { currentRow++ err = cursor.Scan(&s, &n) if err != nil { t.Fatal(err) } if n != currentRow { t.Errorf("expected number(Age)=%d, got %d", currentRow, n) } } if currentRow != expectedRows { t.Errorf("expected %d rows, got %d rows", expectedRows, currentRow) } } func TestInvalidNilValues(t *testing.T) { var date1 time.Time var date2 int tests := []struct { name string input any expectedError string }{ { name: "time.Time", input: &date1, expectedError: `sql: Scan error on column index 0, name "bdate": unsupported Scan, storing driver.Value type into type *time.Time`, }, { name: "int", input: &date2, expectedError: `sql: Scan error on column index 0, name "bdate": converting NULL to int is unsupported`, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) ctx, cancel := context.WithCancel(context.Background()) defer cancel() conn, err := db.Conn(ctx) if err != nil { t.Fatal(err) } conn.dc.ci.(*fakeConn).skipDirtySession = true defer conn.Close() err = conn.QueryRowContext(ctx, "SELECT|people|bdate|age=?", 1).Scan(tt.input) if err == nil { t.Fatal("expected error when querying nil column, but succeeded") } if err.Error() != tt.expectedError { t.Fatalf("Expected error: %s\nReceived: %s", tt.expectedError, err.Error()) } err = conn.PingContext(ctx) if err != nil { t.Fatal(err) } }) } } func TestConnTx(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) ctx, cancel := context.WithCancel(context.Background()) defer cancel() conn, err := db.Conn(ctx) if err != nil { t.Fatal(err) } conn.dc.ci.(*fakeConn).skipDirtySession = true defer conn.Close() tx, err := conn.BeginTx(ctx, nil) if err != nil { t.Fatal(err) } insertName, insertAge := "Nancy", 33 _, err = tx.ExecContext(ctx, "INSERT|people|name=?,age=?,photo=APHOTO", insertName, insertAge) if err != nil { t.Fatal(err) } err = tx.Commit() if err != nil { t.Fatal(err) } var selectName string err = conn.QueryRowContext(ctx, "SELECT|people|name|age=?", insertAge).Scan(&selectName) if err != nil { t.Fatal(err) } if selectName != insertName { t.Fatalf("got %q want %q", selectName, insertName) } } // TestConnIsValid verifies that a database connection that should be discarded, // is actually discarded and does not re-enter the connection pool. // If the IsValid method from *fakeConn is removed, this test will fail. func TestConnIsValid(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) db.SetMaxOpenConns(1) ctx := context.Background() c, err := db.Conn(ctx) if err != nil { t.Fatal(err) } err = c.Raw(func(raw any) error { dc := raw.(*fakeConn) dc.stickyBad = true return nil }) if err != nil { t.Fatal(err) } c.Close() if len(db.freeConn) > 0 && db.freeConn[0].ci.(*fakeConn).stickyBad { t.Fatal("bad connection returned to pool; expected bad connection to be discarded") } } // Tests fix for issue 2542, that we release a lock when querying on // a closed connection. func TestIssue2542Deadlock(t *testing.T) { db := newTestDB(t, "people") closeDB(t, db) for i := 0; i < 2; i++ { _, err := db.Query("SELECT|people|age,name|") if err == nil { t.Fatalf("expected error") } } } // From golang.org/issue/3865 func TestCloseStmtBeforeRows(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) s, err := db.Prepare("SELECT|people|name|") if err != nil { t.Fatal(err) } r, err := s.Query() if err != nil { s.Close() t.Fatal(err) } err = s.Close() if err != nil { t.Fatal(err) } r.Close() } // Tests fix for issue 2788, that we bind nil to a []byte if the // value in the column is sql null func TestNullByteSlice(t *testing.T) { db := newTestDB(t, "") defer closeDB(t, db) exec(t, db, "CREATE|t|id=int32,name=nullstring") exec(t, db, "INSERT|t|id=10,name=?", nil) var name []byte err := db.QueryRow("SELECT|t|name|id=?", 10).Scan(&name) if err != nil { t.Fatal(err) } if name != nil { t.Fatalf("name []byte should be nil for null column value, got: %#v", name) } exec(t, db, "INSERT|t|id=11,name=?", "bob") err = db.QueryRow("SELECT|t|name|id=?", 11).Scan(&name) if err != nil { t.Fatal(err) } if string(name) != "bob" { t.Fatalf("name []byte should be bob, got: %q", string(name)) } } func TestPointerParamsAndScans(t *testing.T) { db := newTestDB(t, "") defer closeDB(t, db) exec(t, db, "CREATE|t|id=int32,name=nullstring") bob := "bob" var name *string name = &bob exec(t, db, "INSERT|t|id=10,name=?", name) name = nil exec(t, db, "INSERT|t|id=20,name=?", name) err := db.QueryRow("SELECT|t|name|id=?", 10).Scan(&name) if err != nil { t.Fatalf("querying id 10: %v", err) } if name == nil { t.Errorf("id 10's name = nil; want bob") } else if *name != "bob" { t.Errorf("id 10's name = %q; want bob", *name) } err = db.QueryRow("SELECT|t|name|id=?", 20).Scan(&name) if err != nil { t.Fatalf("querying id 20: %v", err) } if name != nil { t.Errorf("id 20 = %q; want nil", *name) } } func TestQueryRowClosingStmt(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) var name string var age int err := db.QueryRow("SELECT|people|age,name|age=?", 3).Scan(&age, &name) if err != nil { t.Fatal(err) } if len(db.freeConn) != 1 { t.Fatalf("expected 1 free conn") } fakeConn := db.freeConn[0].ci.(*fakeConn) if made, closed := fakeConn.stmtsMade, fakeConn.stmtsClosed; made != closed { t.Errorf("statement close mismatch: made %d, closed %d", made, closed) } } var atomicRowsCloseHook atomic.Value // of func(*Rows, *error) func init() { rowsCloseHook = func() func(*Rows, *error) { fn, _ := atomicRowsCloseHook.Load().(func(*Rows, *error)) return fn } } func setRowsCloseHook(fn func(*Rows, *error)) { if fn == nil { // Can't change an atomic.Value back to nil, so set it to this // no-op func instead. fn = func(*Rows, *error) {} } atomicRowsCloseHook.Store(fn) } // Test issue 6651 func TestIssue6651(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) var v string want := "error in rows.Next" rowsCursorNextHook = func(dest []driver.Value) error { return errors.New(want) } defer func() { rowsCursorNextHook = nil }() err := db.QueryRow("SELECT|people|name|").Scan(&v) if err == nil || err.Error() != want { t.Errorf("error = %q; want %q", err, want) } rowsCursorNextHook = nil want = "error in rows.Close" setRowsCloseHook(func(rows *Rows, err *error) { *err = errors.New(want) }) defer setRowsCloseHook(nil) err = db.QueryRow("SELECT|people|name|").Scan(&v) if err == nil || err.Error() != want { t.Errorf("error = %q; want %q", err, want) } } type nullTestRow struct { nullParam any notNullParam any scanNullVal any } type nullTestSpec struct { nullType string notNullType string rows [6]nullTestRow } func TestNullStringParam(t *testing.T) { spec := nullTestSpec{"nullstring", "string", [6]nullTestRow{ {NullString{"aqua", true}, "", NullString{"aqua", true}}, {NullString{"brown", false}, "", NullString{"", false}}, {"chartreuse", "", NullString{"chartreuse", true}}, {NullString{"darkred", true}, "", NullString{"darkred", true}}, {NullString{"eel", false}, "", NullString{"", false}}, {"foo", NullString{"black", false}, nil}, }} nullTestRun(t, spec) } func TestGenericNullStringParam(t *testing.T) { spec := nullTestSpec{"nullstring", "string", [6]nullTestRow{ {Null[string]{"aqua", true}, "", Null[string]{"aqua", true}}, {Null[string]{"brown", false}, "", Null[string]{"", false}}, {"chartreuse", "", Null[string]{"chartreuse", true}}, {Null[string]{"darkred", true}, "", Null[string]{"darkred", true}}, {Null[string]{"eel", false}, "", Null[string]{"", false}}, {"foo", Null[string]{"black", false}, nil}, }} nullTestRun(t, spec) } func TestNullInt64Param(t *testing.T) { spec := nullTestSpec{"nullint64", "int64", [6]nullTestRow{ {NullInt64{31, true}, 1, NullInt64{31, true}}, {NullInt64{-22, false}, 1, NullInt64{0, false}}, {22, 1, NullInt64{22, true}}, {NullInt64{33, true}, 1, NullInt64{33, true}}, {NullInt64{222, false}, 1, NullInt64{0, false}}, {0, NullInt64{31, false}, nil}, }} nullTestRun(t, spec) } func TestNullInt32Param(t *testing.T) { spec := nullTestSpec{"nullint32", "int32", [6]nullTestRow{ {NullInt32{31, true}, 1, NullInt32{31, true}}, {NullInt32{-22, false}, 1, NullInt32{0, false}}, {22, 1, NullInt32{22, true}}, {NullInt32{33, true}, 1, NullInt32{33, true}}, {NullInt32{222, false}, 1, NullInt32{0, false}}, {0, NullInt32{31, false}, nil}, }} nullTestRun(t, spec) } func TestNullInt16Param(t *testing.T) { spec := nullTestSpec{"nullint16", "int16", [6]nullTestRow{ {NullInt16{31, true}, 1, NullInt16{31, true}}, {NullInt16{-22, false}, 1, NullInt16{0, false}}, {22, 1, NullInt16{22, true}}, {NullInt16{33, true}, 1, NullInt16{33, true}}, {NullInt16{222, false}, 1, NullInt16{0, false}}, {0, NullInt16{31, false}, nil}, }} nullTestRun(t, spec) } func TestNullByteParam(t *testing.T) { spec := nullTestSpec{"nullbyte", "byte", [6]nullTestRow{ {NullByte{31, true}, 1, NullByte{31, true}}, {NullByte{0, false}, 1, NullByte{0, false}}, {22, 1, NullByte{22, true}}, {NullByte{33, true}, 1, NullByte{33, true}}, {NullByte{222, false}, 1, NullByte{0, false}}, {0, NullByte{31, false}, nil}, }} nullTestRun(t, spec) } func TestNullFloat64Param(t *testing.T) { spec := nullTestSpec{"nullfloat64", "float64", [6]nullTestRow{ {NullFloat64{31.2, true}, 1, NullFloat64{31.2, true}}, {NullFloat64{13.1, false}, 1, NullFloat64{0, false}}, {-22.9, 1, NullFloat64{-22.9, true}}, {NullFloat64{33.81, true}, 1, NullFloat64{33.81, true}}, {NullFloat64{222, false}, 1, NullFloat64{0, false}}, {10, NullFloat64{31.2, false}, nil}, }} nullTestRun(t, spec) } func TestNullBoolParam(t *testing.T) { spec := nullTestSpec{"nullbool", "bool", [6]nullTestRow{ {NullBool{false, true}, true, NullBool{false, true}}, {NullBool{true, false}, false, NullBool{false, false}}, {true, true, NullBool{true, true}}, {NullBool{true, true}, false, NullBool{true, true}}, {NullBool{true, false}, true, NullBool{false, false}}, {true, NullBool{true, false}, nil}, }} nullTestRun(t, spec) } func TestNullTimeParam(t *testing.T) { t0 := time.Time{} t1 := time.Date(2000, 1, 1, 8, 9, 10, 11, time.UTC) t2 := time.Date(2010, 1, 1, 8, 9, 10, 11, time.UTC) spec := nullTestSpec{"nulldatetime", "datetime", [6]nullTestRow{ {NullTime{t1, true}, t2, NullTime{t1, true}}, {NullTime{t1, false}, t2, NullTime{t0, false}}, {t1, t2, NullTime{t1, true}}, {NullTime{t1, true}, t2, NullTime{t1, true}}, {NullTime{t1, false}, t2, NullTime{t0, false}}, {t2, NullTime{t1, false}, nil}, }} nullTestRun(t, spec) } func nullTestRun(t *testing.T, spec nullTestSpec) { db := newTestDB(t, "") defer closeDB(t, db) exec(t, db, fmt.Sprintf("CREATE|t|id=int32,name=string,nullf=%s,notnullf=%s", spec.nullType, spec.notNullType)) // Inserts with db.Exec: exec(t, db, "INSERT|t|id=?,name=?,nullf=?,notnullf=?", 1, "alice", spec.rows[0].nullParam, spec.rows[0].notNullParam) exec(t, db, "INSERT|t|id=?,name=?,nullf=?,notnullf=?", 2, "bob", spec.rows[1].nullParam, spec.rows[1].notNullParam) // Inserts with a prepared statement: stmt, err := db.Prepare("INSERT|t|id=?,name=?,nullf=?,notnullf=?") if err != nil { t.Fatalf("prepare: %v", err) } defer stmt.Close() if _, err := stmt.Exec(3, "chris", spec.rows[2].nullParam, spec.rows[2].notNullParam); err != nil { t.Errorf("exec insert chris: %v", err) } if _, err := stmt.Exec(4, "dave", spec.rows[3].nullParam, spec.rows[3].notNullParam); err != nil { t.Errorf("exec insert dave: %v", err) } if _, err := stmt.Exec(5, "eleanor", spec.rows[4].nullParam, spec.rows[4].notNullParam); err != nil { t.Errorf("exec insert eleanor: %v", err) } // Can't put null val into non-null col row5 := spec.rows[5] if _, err := stmt.Exec(6, "bob", row5.nullParam, row5.notNullParam); err == nil { t.Errorf("expected error inserting nil val with prepared statement Exec: NULL=%#v, NOT-NULL=%#v", row5.nullParam, row5.notNullParam) } _, err = db.Exec("INSERT|t|id=?,name=?,nullf=?", 999, nil, nil) if err == nil { // TODO: this test fails, but it's just because // fakeConn implements the optional Execer interface, // so arguably this is the correct behavior. But // maybe I should flesh out the fakeConn.Exec // implementation so this properly fails. // t.Errorf("expected error inserting nil name with Exec") } paramtype := reflect.TypeOf(spec.rows[0].nullParam) bindVal := reflect.New(paramtype).Interface() for i := 0; i < 5; i++ { id := i + 1 if err := db.QueryRow("SELECT|t|nullf|id=?", id).Scan(bindVal); err != nil { t.Errorf("id=%d Scan: %v", id, err) } bindValDeref := reflect.ValueOf(bindVal).Elem().Interface() if !reflect.DeepEqual(bindValDeref, spec.rows[i].scanNullVal) { t.Errorf("id=%d got %#v, want %#v", id, bindValDeref, spec.rows[i].scanNullVal) } } } // golang.org/issue/4859 func TestQueryRowNilScanDest(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) var name *string // nil pointer err := db.QueryRow("SELECT|people|name|").Scan(name) want := `sql: Scan error on column index 0, name "name": destination pointer is nil` if err == nil || err.Error() != want { t.Errorf("error = %q; want %q", err.Error(), want) } } func TestIssue4902(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) driver := db.Driver().(*fakeDriver) opens0 := driver.openCount var stmt *Stmt var err error for i := 0; i < 10; i++ { stmt, err = db.Prepare("SELECT|people|name|") if err != nil { t.Fatal(err) } err = stmt.Close() if err != nil { t.Fatal(err) } } opens := driver.openCount - opens0 if opens > 1 { t.Errorf("opens = %d; want <= 1", opens) t.Logf("db = %#v", db) t.Logf("driver = %#v", driver) t.Logf("stmt = %#v", stmt) } } // Issue 3857 // This used to deadlock. func TestSimultaneousQueries(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) tx, err := db.Begin() if err != nil { t.Fatal(err) } defer tx.Rollback() r1, err := tx.Query("SELECT|people|name|") if err != nil { t.Fatal(err) } defer r1.Close() r2, err := tx.Query("SELECT|people|name|") if err != nil { t.Fatal(err) } defer r2.Close() } func TestMaxIdleConns(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) tx, err := db.Begin() if err != nil { t.Fatal(err) } tx.Commit() if got := len(db.freeConn); got != 1 { t.Errorf("freeConns = %d; want 1", got) } db.SetMaxIdleConns(0) if got := len(db.freeConn); got != 0 { t.Errorf("freeConns after set to zero = %d; want 0", got) } tx, err = db.Begin() if err != nil { t.Fatal(err) } tx.Commit() if got := len(db.freeConn); got != 0 { t.Errorf("freeConns = %d; want 0", got) } } func TestMaxOpenConns(t *testing.T) { if testing.Short() { t.Skip("skipping in short mode") } defer setHookpostCloseConn(nil) setHookpostCloseConn(func(_ *fakeConn, err error) { if err != nil { t.Errorf("Error closing fakeConn: %v", err) } }) db := newTestDB(t, "magicquery") defer closeDB(t, db) driver := db.Driver().(*fakeDriver) // Force the number of open connections to 0 so we can get an accurate // count for the test db.clearAllConns(t) driver.mu.Lock() opens0 := driver.openCount closes0 := driver.closeCount driver.mu.Unlock() db.SetMaxIdleConns(10) db.SetMaxOpenConns(10) stmt, err := db.Prepare("SELECT|magicquery|op|op=?,millis=?") if err != nil { t.Fatal(err) } // Start 50 parallel slow queries. const ( nquery = 50 sleepMillis = 25 nbatch = 2 ) var wg sync.WaitGroup for batch := 0; batch < nbatch; batch++ { for i := 0; i < nquery; i++ { wg.Add(1) go func() { defer wg.Done() var op string if err := stmt.QueryRow("sleep", sleepMillis).Scan(&op); err != nil && err != ErrNoRows { t.Error(err) } }() } // Wait for the batch of queries above to finish before starting the next round. wg.Wait() } if g, w := db.numFreeConns(), 10; g != w { t.Errorf("free conns = %d; want %d", g, w) } if n := db.numDepsPoll(t, 20); n > 20 { t.Errorf("number of dependencies = %d; expected <= 20", n) db.dumpDeps(t) } driver.mu.Lock() opens := driver.openCount - opens0 closes := driver.closeCount - closes0 driver.mu.Unlock() if opens > 10 { t.Logf("open calls = %d", opens) t.Logf("close calls = %d", closes) t.Errorf("db connections opened = %d; want <= 10", opens) db.dumpDeps(t) } if err := stmt.Close(); err != nil { t.Fatal(err) } if g, w := db.numFreeConns(), 10; g != w { t.Errorf("free conns = %d; want %d", g, w) } if n := db.numDepsPoll(t, 10); n > 10 { t.Errorf("number of dependencies = %d; expected <= 10", n) db.dumpDeps(t) } db.SetMaxOpenConns(5) if g, w := db.numFreeConns(), 5; g != w { t.Errorf("free conns = %d; want %d", g, w) } if n := db.numDepsPoll(t, 5); n > 5 { t.Errorf("number of dependencies = %d; expected 0", n) db.dumpDeps(t) } db.SetMaxOpenConns(0) if g, w := db.numFreeConns(), 5; g != w { t.Errorf("free conns = %d; want %d", g, w) } if n := db.numDepsPoll(t, 5); n > 5 { t.Errorf("number of dependencies = %d; expected 0", n) db.dumpDeps(t) } db.clearAllConns(t) } // Issue 9453: tests that SetMaxOpenConns can be lowered at runtime // and affects the subsequent release of connections. func TestMaxOpenConnsOnBusy(t *testing.T) { defer setHookpostCloseConn(nil) setHookpostCloseConn(func(_ *fakeConn, err error) { if err != nil { t.Errorf("Error closing fakeConn: %v", err) } }) db := newTestDB(t, "magicquery") defer closeDB(t, db) db.SetMaxOpenConns(3) ctx := context.Background() conn0, err := db.conn(ctx, cachedOrNewConn) if err != nil { t.Fatalf("db open conn fail: %v", err) } conn1, err := db.conn(ctx, cachedOrNewConn) if err != nil { t.Fatalf("db open conn fail: %v", err) } conn2, err := db.conn(ctx, cachedOrNewConn) if err != nil { t.Fatalf("db open conn fail: %v", err) } if g, w := db.numOpen, 3; g != w { t.Errorf("free conns = %d; want %d", g, w) } db.SetMaxOpenConns(2) if g, w := db.numOpen, 3; g != w { t.Errorf("free conns = %d; want %d", g, w) } conn0.releaseConn(nil) conn1.releaseConn(nil) if g, w := db.numOpen, 2; g != w { t.Errorf("free conns = %d; want %d", g, w) } conn2.releaseConn(nil) if g, w := db.numOpen, 2; g != w { t.Errorf("free conns = %d; want %d", g, w) } } // Issue 10886: tests that all connection attempts return when more than // DB.maxOpen connections are in flight and the first DB.maxOpen fail. func TestPendingConnsAfterErr(t *testing.T) { const ( maxOpen = 2 tryOpen = maxOpen*2 + 2 ) // No queries will be run. db, err := Open("test", fakeDBName) if err != nil { t.Fatalf("Open: %v", err) } defer closeDB(t, db) defer func() { for k, v := range db.lastPut { t.Logf("%p: %v", k, v) } }() db.SetMaxOpenConns(maxOpen) db.SetMaxIdleConns(0) errOffline := errors.New("db offline") defer func() { setHookOpenErr(nil) }() errs := make(chan error, tryOpen) var opening sync.WaitGroup opening.Add(tryOpen) setHookOpenErr(func() error { // Wait for all connections to enqueue. opening.Wait() return errOffline }) for i := 0; i < tryOpen; i++ { go func() { opening.Done() // signal one connection is in flight _, err := db.Exec("will never run") errs <- err }() } opening.Wait() // wait for all workers to begin running const timeout = 5 * time.Second to := time.NewTimer(timeout) defer to.Stop() // check that all connections fail without deadlock for i := 0; i < tryOpen; i++ { select { case err := <-errs: if got, want := err, errOffline; got != want { t.Errorf("unexpected err: got %v, want %v", got, want) } case <-to.C: t.Fatalf("orphaned connection request(s), still waiting after %v", timeout) } } // Wait a reasonable time for the database to close all connections. tick := time.NewTicker(3 * time.Millisecond) defer tick.Stop() for { select { case <-tick.C: db.mu.Lock() if db.numOpen == 0 { db.mu.Unlock() return } db.mu.Unlock() case <-to.C: // Closing the database will check for numOpen and fail the test. return } } } func TestSingleOpenConn(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) db.SetMaxOpenConns(1) rows, err := db.Query("SELECT|people|name|") if err != nil { t.Fatal(err) } if err = rows.Close(); err != nil { t.Fatal(err) } // shouldn't deadlock rows, err = db.Query("SELECT|people|name|") if err != nil { t.Fatal(err) } if err = rows.Close(); err != nil { t.Fatal(err) } } func TestStats(t *testing.T) { db := newTestDB(t, "people") stats := db.Stats() if got := stats.OpenConnections; got != 1 { t.Errorf("stats.OpenConnections = %d; want 1", got) } tx, err := db.Begin() if err != nil { t.Fatal(err) } tx.Commit() closeDB(t, db) stats = db.Stats() if got := stats.OpenConnections; got != 0 { t.Errorf("stats.OpenConnections = %d; want 0", got) } } func TestConnMaxLifetime(t *testing.T) { t0 := time.Unix(1000000, 0) offset := time.Duration(0) nowFunc = func() time.Time { return t0.Add(offset) } defer func() { nowFunc = time.Now }() db := newTestDB(t, "magicquery") defer closeDB(t, db) driver := db.Driver().(*fakeDriver) // Force the number of open connections to 0 so we can get an accurate // count for the test db.clearAllConns(t) driver.mu.Lock() opens0 := driver.openCount closes0 := driver.closeCount driver.mu.Unlock() db.SetMaxIdleConns(10) db.SetMaxOpenConns(10) tx, err := db.Begin() if err != nil { t.Fatal(err) } offset = time.Second tx2, err := db.Begin() if err != nil { t.Fatal(err) } tx.Commit() tx2.Commit() driver.mu.Lock() opens := driver.openCount - opens0 closes := driver.closeCount - closes0 driver.mu.Unlock() if opens != 2 { t.Errorf("opens = %d; want 2", opens) } if closes != 0 { t.Errorf("closes = %d; want 0", closes) } if g, w := db.numFreeConns(), 2; g != w { t.Errorf("free conns = %d; want %d", g, w) } // Expire first conn offset = 11 * time.Second db.SetConnMaxLifetime(10 * time.Second) tx, err = db.Begin() if err != nil { t.Fatal(err) } tx2, err = db.Begin() if err != nil { t.Fatal(err) } tx.Commit() tx2.Commit() // Give connectionCleaner chance to run. waitCondition(t, func() bool { driver.mu.Lock() opens = driver.openCount - opens0 closes = driver.closeCount - closes0 driver.mu.Unlock() return closes == 1 }) if opens != 3 { t.Errorf("opens = %d; want 3", opens) } if closes != 1 { t.Errorf("closes = %d; want 1", closes) } if s := db.Stats(); s.MaxLifetimeClosed != 1 { t.Errorf("MaxLifetimeClosed = %d; want 1 %#v", s.MaxLifetimeClosed, s) } } // golang.org/issue/5323 func TestStmtCloseDeps(t *testing.T) { if testing.Short() { t.Skip("skipping in short mode") } defer setHookpostCloseConn(nil) setHookpostCloseConn(func(_ *fakeConn, err error) { if err != nil { t.Errorf("Error closing fakeConn: %v", err) } }) db := newTestDB(t, "magicquery") defer closeDB(t, db) driver := db.Driver().(*fakeDriver) driver.mu.Lock() opens0 := driver.openCount closes0 := driver.closeCount driver.mu.Unlock() openDelta0 := opens0 - closes0 stmt, err := db.Prepare("SELECT|magicquery|op|op=?,millis=?") if err != nil { t.Fatal(err) } // Start 50 parallel slow queries. const ( nquery = 50 sleepMillis = 25 nbatch = 2 ) var wg sync.WaitGroup for batch := 0; batch < nbatch; batch++ { for i := 0; i < nquery; i++ { wg.Add(1) go func() { defer wg.Done() var op string if err := stmt.QueryRow("sleep", sleepMillis).Scan(&op); err != nil && err != ErrNoRows { t.Error(err) } }() } // Wait for the batch of queries above to finish before starting the next round. wg.Wait() } if g, w := db.numFreeConns(), 2; g != w { t.Errorf("free conns = %d; want %d", g, w) } if n := db.numDepsPoll(t, 4); n > 4 { t.Errorf("number of dependencies = %d; expected <= 4", n) db.dumpDeps(t) } driver.mu.Lock() opens := driver.openCount - opens0 closes := driver.closeCount - closes0 openDelta := (driver.openCount - driver.closeCount) - openDelta0 driver.mu.Unlock() if openDelta > 2 { t.Logf("open calls = %d", opens) t.Logf("close calls = %d", closes) t.Logf("open delta = %d", openDelta) t.Errorf("db connections opened = %d; want <= 2", openDelta) db.dumpDeps(t) } if !waitCondition(t, func() bool { return len(stmt.css) <= nquery }) { t.Errorf("len(stmt.css) = %d; want <= %d", len(stmt.css), nquery) } if err := stmt.Close(); err != nil { t.Fatal(err) } if g, w := db.numFreeConns(), 2; g != w { t.Errorf("free conns = %d; want %d", g, w) } if n := db.numDepsPoll(t, 2); n > 2 { t.Errorf("number of dependencies = %d; expected <= 2", n) db.dumpDeps(t) } db.clearAllConns(t) } // golang.org/issue/5046 func TestCloseConnBeforeStmts(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) defer setHookpostCloseConn(nil) setHookpostCloseConn(func(_ *fakeConn, err error) { if err != nil { t.Errorf("Error closing fakeConn: %v; from %s", err, stack()) db.dumpDeps(t) t.Errorf("DB = %#v", db) } }) stmt, err := db.Prepare("SELECT|people|name|") if err != nil { t.Fatal(err) } if len(db.freeConn) != 1 { t.Fatalf("expected 1 freeConn; got %d", len(db.freeConn)) } dc := db.freeConn[0] if dc.closed { t.Errorf("conn shouldn't be closed") } if n := len(dc.openStmt); n != 1 { t.Errorf("driverConn num openStmt = %d; want 1", n) } err = db.Close() if err != nil { t.Errorf("db Close = %v", err) } if !dc.closed { t.Errorf("after db.Close, driverConn should be closed") } if n := len(dc.openStmt); n != 0 { t.Errorf("driverConn num openStmt = %d; want 0", n) } err = stmt.Close() if err != nil { t.Errorf("Stmt close = %v", err) } if !dc.closed { t.Errorf("conn should be closed") } if dc.ci != nil { t.Errorf("after Stmt Close, driverConn's Conn interface should be nil") } } // golang.org/issue/5283: don't release the Rows' connection in Close // before calling Stmt.Close. func TestRowsCloseOrder(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) db.SetMaxIdleConns(0) setStrictFakeConnClose(t) defer setStrictFakeConnClose(nil) rows, err := db.Query("SELECT|people|age,name|") if err != nil { t.Fatal(err) } err = rows.Close() if err != nil { t.Fatal(err) } } func TestRowsImplicitClose(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) rows, err := db.Query("SELECT|people|age,name|") if err != nil { t.Fatal(err) } want, fail := 2, errors.New("fail") r := rows.rowsi.(*rowsCursor) r.errPos, r.err = want, fail got := 0 for rows.Next() { got++ } if got != want { t.Errorf("got %d rows, want %d", got, want) } if err := rows.Err(); err != fail { t.Errorf("got error %v, want %v", err, fail) } if !r.closed { t.Errorf("r.closed is false, want true") } } func TestRowsCloseError(t *testing.T) { db := newTestDB(t, "people") defer db.Close() rows, err := db.Query("SELECT|people|age,name|") if err != nil { t.Fatalf("Query: %v", err) } type row struct { age int name string } got := []row{} rc, ok := rows.rowsi.(*rowsCursor) if !ok { t.Fatal("not using *rowsCursor") } rc.closeErr = errors.New("rowsCursor: failed to close") for rows.Next() { var r row err = rows.Scan(&r.age, &r.name) if err != nil { t.Fatalf("Scan: %v", err) } got = append(got, r) } err = rows.Err() if err != rc.closeErr { t.Fatalf("unexpected err: got %v, want %v", err, rc.closeErr) } } func TestStmtCloseOrder(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) db.SetMaxIdleConns(0) setStrictFakeConnClose(t) defer setStrictFakeConnClose(nil) _, err := db.Query("SELECT|non_existent|name|") if err == nil { t.Fatal("Querying non-existent table should fail") } } // Test cases where there's more than maxBadConnRetries bad connections in the // pool (issue 8834) func TestManyErrBadConn(t *testing.T) { manyErrBadConnSetup := func(first ...func(db *DB)) *DB { db := newTestDB(t, "people") for _, f := range first { f(db) } nconn := maxBadConnRetries + 1 db.SetMaxIdleConns(nconn) db.SetMaxOpenConns(nconn) // open enough connections func() { for i := 0; i < nconn; i++ { rows, err := db.Query("SELECT|people|age,name|") if err != nil { t.Fatal(err) } defer rows.Close() } }() db.mu.Lock() defer db.mu.Unlock() if db.numOpen != nconn { t.Fatalf("unexpected numOpen %d (was expecting %d)", db.numOpen, nconn) } else if len(db.freeConn) != nconn { t.Fatalf("unexpected len(db.freeConn) %d (was expecting %d)", len(db.freeConn), nconn) } for _, conn := range db.freeConn { conn.Lock() conn.ci.(*fakeConn).stickyBad = true conn.Unlock() } return db } // Query db := manyErrBadConnSetup() defer closeDB(t, db) rows, err := db.Query("SELECT|people|age,name|") if err != nil { t.Fatal(err) } if err = rows.Close(); err != nil { t.Fatal(err) } // Exec db = manyErrBadConnSetup() defer closeDB(t, db) _, err = db.Exec("INSERT|people|name=Julia,age=19") if err != nil { t.Fatal(err) } // Begin db = manyErrBadConnSetup() defer closeDB(t, db) tx, err := db.Begin() if err != nil { t.Fatal(err) } if err = tx.Rollback(); err != nil { t.Fatal(err) } // Prepare db = manyErrBadConnSetup() defer closeDB(t, db) stmt, err := db.Prepare("SELECT|people|age,name|") if err != nil { t.Fatal(err) } if err = stmt.Close(); err != nil { t.Fatal(err) } // Stmt.Exec db = manyErrBadConnSetup(func(db *DB) { stmt, err = db.Prepare("INSERT|people|name=Julia,age=19") if err != nil { t.Fatal(err) } }) defer closeDB(t, db) _, err = stmt.Exec() if err != nil { t.Fatal(err) } if err = stmt.Close(); err != nil { t.Fatal(err) } // Stmt.Query db = manyErrBadConnSetup(func(db *DB) { stmt, err = db.Prepare("SELECT|people|age,name|") if err != nil { t.Fatal(err) } }) defer closeDB(t, db) rows, err = stmt.Query() if err != nil { t.Fatal(err) } if err = rows.Close(); err != nil { t.Fatal(err) } if err = stmt.Close(); err != nil { t.Fatal(err) } // Conn db = manyErrBadConnSetup() defer closeDB(t, db) ctx, cancel := context.WithCancel(context.Background()) defer cancel() conn, err := db.Conn(ctx) if err != nil { t.Fatal(err) } conn.dc.ci.(*fakeConn).skipDirtySession = true err = conn.Close() if err != nil { t.Fatal(err) } // Ping db = manyErrBadConnSetup() defer closeDB(t, db) err = db.PingContext(ctx) if err != nil { t.Fatal(err) } } // Issue 34775: Ensure that a Tx cannot commit after a rollback. func TestTxCannotCommitAfterRollback(t *testing.T) { db := newTestDB(t, "tx_status") defer closeDB(t, db) // First check query reporting is correct. var txStatus string err := db.QueryRow("SELECT|tx_status|tx_status|").Scan(&txStatus) if err != nil { t.Fatal(err) } if g, w := txStatus, "autocommit"; g != w { t.Fatalf("tx_status=%q, wanted %q", g, w) } ctx, cancel := context.WithCancel(context.Background()) defer cancel() tx, err := db.BeginTx(ctx, nil) if err != nil { t.Fatal(err) } // Ignore dirty session for this test. // A failing test should trigger the dirty session flag as well, // but that isn't exactly what this should test for. tx.txi.(*fakeTx).c.skipDirtySession = true defer tx.Rollback() err = tx.QueryRow("SELECT|tx_status|tx_status|").Scan(&txStatus) if err != nil { t.Fatal(err) } if g, w := txStatus, "transaction"; g != w { t.Fatalf("tx_status=%q, wanted %q", g, w) } // 1. Begin a transaction. // 2. (A) Start a query, (B) begin Tx rollback through a ctx cancel. // 3. Check if 2.A has committed in Tx (pass) or outside of Tx (fail). sendQuery := make(chan struct{}) // The Tx status is returned through the row results, ensure // that the rows results are not canceled. bypassRowsAwaitDone = true hookTxGrabConn = func() { cancel() <-sendQuery } rollbackHook = func() { close(sendQuery) } defer func() { hookTxGrabConn = nil rollbackHook = nil bypassRowsAwaitDone = false }() err = tx.QueryRow("SELECT|tx_status|tx_status|").Scan(&txStatus) if err != nil { // A failure here would be expected if skipDirtySession was not set to true above. t.Fatal(err) } if g, w := txStatus, "transaction"; g != w { t.Fatalf("tx_status=%q, wanted %q", g, w) } } // Issue 40985 transaction statement deadlock while context cancel. func TestTxStmtDeadlock(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) ctx, cancel := context.WithCancel(context.Background()) defer cancel() tx, err := db.BeginTx(ctx, nil) if err != nil { t.Fatal(err) } stmt, err := tx.Prepare("SELECT|people|name,age|age=?") if err != nil { t.Fatal(err) } cancel() // Run number of stmt queries to reproduce deadlock from context cancel for i := 0; i < 1e3; i++ { // Encounter any close related errors (e.g. ErrTxDone, stmt is closed) // is expected due to context cancel. _, err = stmt.Query(1) if err != nil { break } } _ = tx.Rollback() } // Issue32530 encounters an issue where a connection may // expire right after it comes out of a used connection pool // even when a new connection is requested. func TestConnExpiresFreshOutOfPool(t *testing.T) { execCases := []struct { expired bool badReset bool }{ {false, false}, {true, false}, {false, true}, } t0 := time.Unix(1000000, 0) offset := time.Duration(0) offsetMu := sync.RWMutex{} nowFunc = func() time.Time { offsetMu.RLock() defer offsetMu.RUnlock() return t0.Add(offset) } defer func() { nowFunc = time.Now }() ctx, cancel := context.WithCancel(context.Background()) defer cancel() db := newTestDB(t, "magicquery") defer closeDB(t, db) db.SetMaxOpenConns(1) for _, ec := range execCases { ec := ec name := fmt.Sprintf("expired=%t,badReset=%t", ec.expired, ec.badReset) t.Run(name, func(t *testing.T) { db.clearAllConns(t) db.SetMaxIdleConns(1) db.SetConnMaxLifetime(10 * time.Second) conn, err := db.conn(ctx, alwaysNewConn) if err != nil { t.Fatal(err) } afterPutConn := make(chan struct{}) waitingForConn := make(chan struct{}) go func() { defer close(afterPutConn) conn, err := db.conn(ctx, alwaysNewConn) if err == nil { db.putConn(conn, err, false) } else { t.Errorf("db.conn: %v", err) } }() go func() { defer close(waitingForConn) for { if t.Failed() { return } db.mu.Lock() ct := db.connRequests.Len() db.mu.Unlock() if ct > 0 { return } time.Sleep(pollDuration) } }() <-waitingForConn if t.Failed() { return } offsetMu.Lock() if ec.expired { offset = 11 * time.Second } else { offset = time.Duration(0) } offsetMu.Unlock() conn.ci.(*fakeConn).stickyBad = ec.badReset db.putConn(conn, err, true) <-afterPutConn }) } } // TestIssue20575 ensures the Rows from query does not block // closing a transaction. Ensure Rows is closed while closing a transaction. func TestIssue20575(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) tx, err := db.Begin() if err != nil { t.Fatal(err) } ctx, cancel := context.WithTimeout(context.Background(), 3*time.Second) defer cancel() _, err = tx.QueryContext(ctx, "SELECT|people|age,name|") if err != nil { t.Fatal(err) } // Do not close Rows from QueryContext. err = tx.Rollback() if err != nil { t.Fatal(err) } select { default: case <-ctx.Done(): t.Fatal("timeout: failed to rollback query without closing rows:", ctx.Err()) } } // TestIssue20622 tests closing the transaction before rows is closed, requires // the race detector to fail. func TestIssue20622(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) ctx, cancel := context.WithCancel(context.Background()) defer cancel() tx, err := db.BeginTx(ctx, nil) if err != nil { t.Fatal(err) } rows, err := tx.Query("SELECT|people|age,name|") if err != nil { t.Fatal(err) } count := 0 for rows.Next() { count++ var age int var name string if err := rows.Scan(&age, &name); err != nil { t.Fatal("scan failed", err) } if count == 1 { cancel() } time.Sleep(100 * time.Millisecond) } rows.Close() tx.Commit() } // golang.org/issue/5718 func TestErrBadConnReconnect(t *testing.T) { db := newTestDB(t, "foo") defer closeDB(t, db) exec(t, db, "CREATE|t1|name=string,age=int32,dead=bool") simulateBadConn := func(name string, hook *func() bool, op func() error) { broken, retried := false, false numOpen := db.numOpen // simulate a broken connection on the first try *hook = func() bool { if !broken { broken = true return true } retried = true return false } if err := op(); err != nil { t.Errorf(name+": %v", err) return } if !broken || !retried { t.Error(name + ": Failed to simulate broken connection") } *hook = nil if numOpen != db.numOpen { t.Errorf(name+": leaked %d connection(s)!", db.numOpen-numOpen) numOpen = db.numOpen } } // db.Exec dbExec := func() error { _, err := db.Exec("INSERT|t1|name=?,age=?,dead=?", "Gordon", 3, true) return err } simulateBadConn("db.Exec prepare", &hookPrepareBadConn, dbExec) simulateBadConn("db.Exec exec", &hookExecBadConn, dbExec) // db.Query dbQuery := func() error { rows, err := db.Query("SELECT|t1|age,name|") if err == nil { err = rows.Close() } return err } simulateBadConn("db.Query prepare", &hookPrepareBadConn, dbQuery) simulateBadConn("db.Query query", &hookQueryBadConn, dbQuery) // db.Prepare simulateBadConn("db.Prepare", &hookPrepareBadConn, func() error { stmt, err := db.Prepare("INSERT|t1|name=?,age=?,dead=?") if err != nil { return err } stmt.Close() return nil }) // Provide a way to force a re-prepare of a statement on next execution forcePrepare := func(stmt *Stmt) { stmt.css = nil } // stmt.Exec stmt1, err := db.Prepare("INSERT|t1|name=?,age=?,dead=?") if err != nil { t.Fatalf("prepare: %v", err) } defer stmt1.Close() // make sure we must prepare the stmt first forcePrepare(stmt1) stmtExec := func() error { _, err := stmt1.Exec("Gopher", 3, false) return err } simulateBadConn("stmt.Exec prepare", &hookPrepareBadConn, stmtExec) simulateBadConn("stmt.Exec exec", &hookExecBadConn, stmtExec) // stmt.Query stmt2, err := db.Prepare("SELECT|t1|age,name|") if err != nil { t.Fatalf("prepare: %v", err) } defer stmt2.Close() // make sure we must prepare the stmt first forcePrepare(stmt2) stmtQuery := func() error { rows, err := stmt2.Query() if err == nil { err = rows.Close() } return err } simulateBadConn("stmt.Query prepare", &hookPrepareBadConn, stmtQuery) simulateBadConn("stmt.Query exec", &hookQueryBadConn, stmtQuery) } // golang.org/issue/11264 func TestTxEndBadConn(t *testing.T) { db := newTestDB(t, "foo") defer closeDB(t, db) db.SetMaxIdleConns(0) exec(t, db, "CREATE|t1|name=string,age=int32,dead=bool") db.SetMaxIdleConns(1) simulateBadConn := func(name string, hook *func() bool, op func() error) { broken := false numOpen := db.numOpen *hook = func() bool { if !broken { broken = true } return broken } if err := op(); !errors.Is(err, driver.ErrBadConn) { t.Errorf(name+": %v", err) return } if !broken { t.Error(name + ": Failed to simulate broken connection") } *hook = nil if numOpen != db.numOpen { t.Errorf(name+": leaked %d connection(s)!", db.numOpen-numOpen) } } // db.Exec dbExec := func(endTx func(tx *Tx) error) func() error { return func() error { tx, err := db.Begin() if err != nil { return err } _, err = tx.Exec("INSERT|t1|name=?,age=?,dead=?", "Gordon", 3, true) if err != nil { return err } return endTx(tx) } } simulateBadConn("db.Tx.Exec commit", &hookCommitBadConn, dbExec((*Tx).Commit)) simulateBadConn("db.Tx.Exec rollback", &hookRollbackBadConn, dbExec((*Tx).Rollback)) // db.Query dbQuery := func(endTx func(tx *Tx) error) func() error { return func() error { tx, err := db.Begin() if err != nil { return err } rows, err := tx.Query("SELECT|t1|age,name|") if err == nil { err = rows.Close() } else { return err } return endTx(tx) } } simulateBadConn("db.Tx.Query commit", &hookCommitBadConn, dbQuery((*Tx).Commit)) simulateBadConn("db.Tx.Query rollback", &hookRollbackBadConn, dbQuery((*Tx).Rollback)) } type concurrentTest interface { init(t testing.TB, db *DB) finish(t testing.TB) test(t testing.TB) error } type concurrentDBQueryTest struct { db *DB } func (c *concurrentDBQueryTest) init(t testing.TB, db *DB) { c.db = db } func (c *concurrentDBQueryTest) finish(t testing.TB) { c.db = nil } func (c *concurrentDBQueryTest) test(t testing.TB) error { rows, err := c.db.Query("SELECT|people|name|") if err != nil { t.Error(err) return err } var name string for rows.Next() { rows.Scan(&name) } rows.Close() return nil } type concurrentDBExecTest struct { db *DB } func (c *concurrentDBExecTest) init(t testing.TB, db *DB) { c.db = db } func (c *concurrentDBExecTest) finish(t testing.TB) { c.db = nil } func (c *concurrentDBExecTest) test(t testing.TB) error { _, err := c.db.Exec("NOSERT|people|name=Chris,age=?,photo=CPHOTO,bdate=?", 3, chrisBirthday) if err != nil { t.Error(err) return err } return nil } type concurrentStmtQueryTest struct { db *DB stmt *Stmt } func (c *concurrentStmtQueryTest) init(t testing.TB, db *DB) { c.db = db var err error c.stmt, err = db.Prepare("SELECT|people|name|") if err != nil { t.Fatal(err) } } func (c *concurrentStmtQueryTest) finish(t testing.TB) { if c.stmt != nil { c.stmt.Close() c.stmt = nil } c.db = nil } func (c *concurrentStmtQueryTest) test(t testing.TB) error { rows, err := c.stmt.Query() if err != nil { t.Errorf("error on query: %v", err) return err } var name string for rows.Next() { rows.Scan(&name) } rows.Close() return nil } type concurrentStmtExecTest struct { db *DB stmt *Stmt } func (c *concurrentStmtExecTest) init(t testing.TB, db *DB) { c.db = db var err error c.stmt, err = db.Prepare("NOSERT|people|name=Chris,age=?,photo=CPHOTO,bdate=?") if err != nil { t.Fatal(err) } } func (c *concurrentStmtExecTest) finish(t testing.TB) { if c.stmt != nil { c.stmt.Close() c.stmt = nil } c.db = nil } func (c *concurrentStmtExecTest) test(t testing.TB) error { _, err := c.stmt.Exec(3, chrisBirthday) if err != nil { t.Errorf("error on exec: %v", err) return err } return nil } type concurrentTxQueryTest struct { db *DB tx *Tx } func (c *concurrentTxQueryTest) init(t testing.TB, db *DB) { c.db = db var err error c.tx, err = c.db.Begin() if err != nil { t.Fatal(err) } } func (c *concurrentTxQueryTest) finish(t testing.TB) { if c.tx != nil { c.tx.Rollback() c.tx = nil } c.db = nil } func (c *concurrentTxQueryTest) test(t testing.TB) error { rows, err := c.db.Query("SELECT|people|name|") if err != nil { t.Error(err) return err } var name string for rows.Next() { rows.Scan(&name) } rows.Close() return nil } type concurrentTxExecTest struct { db *DB tx *Tx } func (c *concurrentTxExecTest) init(t testing.TB, db *DB) { c.db = db var err error c.tx, err = c.db.Begin() if err != nil { t.Fatal(err) } } func (c *concurrentTxExecTest) finish(t testing.TB) { if c.tx != nil { c.tx.Rollback() c.tx = nil } c.db = nil } func (c *concurrentTxExecTest) test(t testing.TB) error { _, err := c.tx.Exec("NOSERT|people|name=Chris,age=?,photo=CPHOTO,bdate=?", 3, chrisBirthday) if err != nil { t.Error(err) return err } return nil } type concurrentTxStmtQueryTest struct { db *DB tx *Tx stmt *Stmt } func (c *concurrentTxStmtQueryTest) init(t testing.TB, db *DB) { c.db = db var err error c.tx, err = c.db.Begin() if err != nil { t.Fatal(err) } c.stmt, err = c.tx.Prepare("SELECT|people|name|") if err != nil { t.Fatal(err) } } func (c *concurrentTxStmtQueryTest) finish(t testing.TB) { if c.stmt != nil { c.stmt.Close() c.stmt = nil } if c.tx != nil { c.tx.Rollback() c.tx = nil } c.db = nil } func (c *concurrentTxStmtQueryTest) test(t testing.TB) error { rows, err := c.stmt.Query() if err != nil { t.Errorf("error on query: %v", err) return err } var name string for rows.Next() { rows.Scan(&name) } rows.Close() return nil } type concurrentTxStmtExecTest struct { db *DB tx *Tx stmt *Stmt } func (c *concurrentTxStmtExecTest) init(t testing.TB, db *DB) { c.db = db var err error c.tx, err = c.db.Begin() if err != nil { t.Fatal(err) } c.stmt, err = c.tx.Prepare("NOSERT|people|name=Chris,age=?,photo=CPHOTO,bdate=?") if err != nil { t.Fatal(err) } } func (c *concurrentTxStmtExecTest) finish(t testing.TB) { if c.stmt != nil { c.stmt.Close() c.stmt = nil } if c.tx != nil { c.tx.Rollback() c.tx = nil } c.db = nil } func (c *concurrentTxStmtExecTest) test(t testing.TB) error { _, err := c.stmt.Exec(3, chrisBirthday) if err != nil { t.Errorf("error on exec: %v", err) return err } return nil } type concurrentRandomTest struct { tests []concurrentTest } func (c *concurrentRandomTest) init(t testing.TB, db *DB) { c.tests = []concurrentTest{ new(concurrentDBQueryTest), new(concurrentDBExecTest), new(concurrentStmtQueryTest), new(concurrentStmtExecTest), new(concurrentTxQueryTest), new(concurrentTxExecTest), new(concurrentTxStmtQueryTest), new(concurrentTxStmtExecTest), } for _, ct := range c.tests { ct.init(t, db) } } func (c *concurrentRandomTest) finish(t testing.TB) { for _, ct := range c.tests { ct.finish(t) } } func (c *concurrentRandomTest) test(t testing.TB) error { ct := c.tests[rand.Intn(len(c.tests))] return ct.test(t) } func doConcurrentTest(t testing.TB, ct concurrentTest) { maxProcs, numReqs := 1, 500 if testing.Short() { maxProcs, numReqs = 4, 50 } defer runtime.GOMAXPROCS(runtime.GOMAXPROCS(maxProcs)) db := newTestDB(t, "people") defer closeDB(t, db) ct.init(t, db) defer ct.finish(t) var wg sync.WaitGroup wg.Add(numReqs) reqs := make(chan bool) defer close(reqs) for i := 0; i < maxProcs*2; i++ { go func() { for range reqs { err := ct.test(t) if err != nil { wg.Done() continue } wg.Done() } }() } for i := 0; i < numReqs; i++ { reqs <- true } wg.Wait() } func TestIssue6081(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) drv := db.Driver().(*fakeDriver) drv.mu.Lock() opens0 := drv.openCount closes0 := drv.closeCount drv.mu.Unlock() stmt, err := db.Prepare("SELECT|people|name|") if err != nil { t.Fatal(err) } setRowsCloseHook(func(rows *Rows, err *error) { *err = driver.ErrBadConn }) defer setRowsCloseHook(nil) for i := 0; i < 10; i++ { rows, err := stmt.Query() if err != nil { t.Fatal(err) } rows.Close() } if n := len(stmt.css); n > 1 { t.Errorf("len(css slice) = %d; want <= 1", n) } stmt.Close() if n := len(stmt.css); n != 0 { t.Errorf("len(css slice) after Close = %d; want 0", n) } drv.mu.Lock() opens := drv.openCount - opens0 closes := drv.closeCount - closes0 drv.mu.Unlock() if opens < 9 { t.Errorf("opens = %d; want >= 9", opens) } if closes < 9 { t.Errorf("closes = %d; want >= 9", closes) } } // TestIssue18429 attempts to stress rolling back the transaction from a // context cancel while simultaneously calling Tx.Rollback. Rolling back from a // context happens concurrently so tx.rollback and tx.Commit must guard against // double entry. // // In the test, a context is canceled while the query is in process so // the internal rollback will run concurrently with the explicitly called // Tx.Rollback. // // The addition of calling rows.Next also tests // Issue 21117. func TestIssue18429(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) ctx := context.Background() sem := make(chan bool, 20) var wg sync.WaitGroup const milliWait = 30 for i := 0; i < 100; i++ { sem <- true wg.Add(1) go func() { defer func() { <-sem wg.Done() }() qwait := (time.Duration(rand.Intn(milliWait)) * time.Millisecond).String() ctx, cancel := context.WithTimeout(ctx, time.Duration(rand.Intn(milliWait))*time.Millisecond) defer cancel() tx, err := db.BeginTx(ctx, nil) if err != nil { return } // This is expected to give a cancel error most, but not all the time. // Test failure will happen with a panic or other race condition being // reported. rows, _ := tx.QueryContext(ctx, "WAIT|"+qwait+"|SELECT|people|name|") if rows != nil { var name string // Call Next to test Issue 21117 and check for races. for rows.Next() { // Scan the buffer so it is read and checked for races. rows.Scan(&name) } rows.Close() } // This call will race with the context cancel rollback to complete // if the rollback itself isn't guarded. tx.Rollback() }() } wg.Wait() } // TestIssue20160 attempts to test a short context life on a stmt Query. func TestIssue20160(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) ctx := context.Background() sem := make(chan bool, 20) var wg sync.WaitGroup const milliWait = 30 stmt, err := db.PrepareContext(ctx, "SELECT|people|name|") if err != nil { t.Fatal(err) } defer stmt.Close() for i := 0; i < 100; i++ { sem <- true wg.Add(1) go func() { defer func() { <-sem wg.Done() }() ctx, cancel := context.WithTimeout(ctx, time.Duration(rand.Intn(milliWait))*time.Millisecond) defer cancel() // This is expected to give a cancel error most, but not all the time. // Test failure will happen with a panic or other race condition being // reported. rows, _ := stmt.QueryContext(ctx) if rows != nil { rows.Close() } }() } wg.Wait() } // TestIssue18719 closes the context right before use. The sql.driverConn // will nil out the ci on close in a lock, but if another process uses it right after // it will panic with on the nil ref. // // See https://golang.org/cl/35550 . func TestIssue18719(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) ctx, cancel := context.WithCancel(context.Background()) defer cancel() tx, err := db.BeginTx(ctx, nil) if err != nil { t.Fatal(err) } hookTxGrabConn = func() { cancel() // Wait for the context to cancel and tx to rollback. for !tx.isDone() { time.Sleep(pollDuration) } } defer func() { hookTxGrabConn = nil }() // This call will grab the connection and cancel the context // after it has done so. Code after must deal with the canceled state. _, err = tx.QueryContext(ctx, "SELECT|people|name|") if err != nil { t.Fatalf("expected error %v but got %v", nil, err) } // Rows may be ignored because it will be closed when the context is canceled. // Do not explicitly rollback. The rollback will happen from the // canceled context. cancel() } func TestIssue20647(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) ctx, cancel := context.WithCancel(context.Background()) defer cancel() conn, err := db.Conn(ctx) if err != nil { t.Fatal(err) } conn.dc.ci.(*fakeConn).skipDirtySession = true defer conn.Close() stmt, err := conn.PrepareContext(ctx, "SELECT|people|name|") if err != nil { t.Fatal(err) } defer stmt.Close() rows1, err := stmt.QueryContext(ctx) if err != nil { t.Fatal("rows1", err) } defer rows1.Close() rows2, err := stmt.QueryContext(ctx) if err != nil { t.Fatal("rows2", err) } defer rows2.Close() if rows1.dc != rows2.dc { t.Fatal("stmt prepared on Conn does not use same connection") } } func TestConcurrency(t *testing.T) { list := []struct { name string ct concurrentTest }{ {"Query", new(concurrentDBQueryTest)}, {"Exec", new(concurrentDBExecTest)}, {"StmtQuery", new(concurrentStmtQueryTest)}, {"StmtExec", new(concurrentStmtExecTest)}, {"TxQuery", new(concurrentTxQueryTest)}, {"TxExec", new(concurrentTxExecTest)}, {"TxStmtQuery", new(concurrentTxStmtQueryTest)}, {"TxStmtExec", new(concurrentTxStmtExecTest)}, {"Random", new(concurrentRandomTest)}, } for _, item := range list { t.Run(item.name, func(t *testing.T) { doConcurrentTest(t, item.ct) }) } } func TestConnectionLeak(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) // Start by opening defaultMaxIdleConns rows := make([]*Rows, defaultMaxIdleConns) // We need to SetMaxOpenConns > MaxIdleConns, so the DB can open // a new connection and we can fill the idle queue with the released // connections. db.SetMaxOpenConns(len(rows) + 1) for ii := range rows { r, err := db.Query("SELECT|people|name|") if err != nil { t.Fatal(err) } r.Next() if err := r.Err(); err != nil { t.Fatal(err) } rows[ii] = r } // Now we have defaultMaxIdleConns busy connections. Open // a new one, but wait until the busy connections are released // before returning control to DB. drv := db.Driver().(*fakeDriver) drv.waitCh = make(chan struct{}, 1) drv.waitingCh = make(chan struct{}, 1) var wg sync.WaitGroup wg.Add(1) go func() { r, err := db.Query("SELECT|people|name|") if err != nil { t.Error(err) return } r.Close() wg.Done() }() // Wait until the goroutine we've just created has started waiting. <-drv.waitingCh // Now close the busy connections. This provides a connection for // the blocked goroutine and then fills up the idle queue. for _, v := range rows { v.Close() } // At this point we give the new connection to DB. This connection is // now useless, since the idle queue is full and there are no pending // requests. DB should deal with this situation without leaking the // connection. drv.waitCh <- struct{}{} wg.Wait() } func TestStatsMaxIdleClosedZero(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) db.SetMaxOpenConns(1) db.SetMaxIdleConns(1) db.SetConnMaxLifetime(0) preMaxIdleClosed := db.Stats().MaxIdleClosed for i := 0; i < 10; i++ { rows, err := db.Query("SELECT|people|name|") if err != nil { t.Fatal(err) } rows.Close() } st := db.Stats() maxIdleClosed := st.MaxIdleClosed - preMaxIdleClosed t.Logf("MaxIdleClosed: %d", maxIdleClosed) if maxIdleClosed != 0 { t.Fatal("expected 0 max idle closed conns, got: ", maxIdleClosed) } } func TestStatsMaxIdleClosedTen(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) db.SetMaxOpenConns(1) db.SetMaxIdleConns(0) db.SetConnMaxLifetime(0) preMaxIdleClosed := db.Stats().MaxIdleClosed for i := 0; i < 10; i++ { rows, err := db.Query("SELECT|people|name|") if err != nil { t.Fatal(err) } rows.Close() } st := db.Stats() maxIdleClosed := st.MaxIdleClosed - preMaxIdleClosed t.Logf("MaxIdleClosed: %d", maxIdleClosed) if maxIdleClosed != 10 { t.Fatal("expected 0 max idle closed conns, got: ", maxIdleClosed) } } // testUseConns uses count concurrent connections with 1 nanosecond apart. // Returns the returnedAt time of the final connection. func testUseConns(t *testing.T, count int, tm time.Time, db *DB) time.Time { conns := make([]*Conn, count) ctx := context.Background() for i := range conns { tm = tm.Add(time.Nanosecond) nowFunc = func() time.Time { return tm } c, err := db.Conn(ctx) if err != nil { t.Error(err) } conns[i] = c } for i := len(conns) - 1; i >= 0; i-- { tm = tm.Add(time.Nanosecond) nowFunc = func() time.Time { return tm } if err := conns[i].Close(); err != nil { t.Error(err) } } return tm } func TestMaxIdleTime(t *testing.T) { usedConns := 5 reusedConns := 2 list := []struct { wantMaxIdleTime time.Duration wantMaxLifetime time.Duration wantNextCheck time.Duration wantIdleClosed int64 wantMaxIdleClosed int64 timeOffset time.Duration secondTimeOffset time.Duration }{ { time.Millisecond, 0, time.Millisecond - time.Nanosecond, int64(usedConns - reusedConns), int64(usedConns - reusedConns), 10 * time.Millisecond, 0, }, { // Want to close some connections via max idle time and one by max lifetime. time.Millisecond, // nowFunc() - MaxLifetime should be 1 * time.Nanosecond in connectionCleanerRunLocked. // This guarantees that first opened connection is to be closed. // Thus it is timeOffset + secondTimeOffset + 3 (+2 for Close while reusing conns and +1 for Conn). 10*time.Millisecond + 100*time.Nanosecond + 3*time.Nanosecond, time.Nanosecond, // Closed all not reused connections and extra one by max lifetime. int64(usedConns - reusedConns + 1), int64(usedConns - reusedConns), 10 * time.Millisecond, // Add second offset because otherwise connections are expired via max lifetime in Close. 100 * time.Nanosecond, }, { time.Hour, 0, time.Second, 0, 0, 10 * time.Millisecond, 0}, } baseTime := time.Unix(0, 0) defer func() { nowFunc = time.Now }() for _, item := range list { nowFunc = func() time.Time { return baseTime } t.Run(fmt.Sprintf("%v", item.wantMaxIdleTime), func(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) db.SetMaxOpenConns(usedConns) db.SetMaxIdleConns(usedConns) db.SetConnMaxIdleTime(item.wantMaxIdleTime) db.SetConnMaxLifetime(item.wantMaxLifetime) preMaxIdleClosed := db.Stats().MaxIdleTimeClosed // Busy usedConns. testUseConns(t, usedConns, baseTime, db) tm := baseTime.Add(item.timeOffset) // Reuse connections which should never be considered idle // and exercises the sorting for issue 39471. tm = testUseConns(t, reusedConns, tm, db) tm = tm.Add(item.secondTimeOffset) nowFunc = func() time.Time { return tm } db.mu.Lock() nc, closing := db.connectionCleanerRunLocked(time.Second) if nc != item.wantNextCheck { t.Errorf("got %v; want %v next check duration", nc, item.wantNextCheck) } // Validate freeConn order. var last time.Time for _, c := range db.freeConn { if last.After(c.returnedAt) { t.Error("freeConn is not ordered by returnedAt") break } last = c.returnedAt } db.mu.Unlock() for _, c := range closing { c.Close() } if g, w := int64(len(closing)), item.wantIdleClosed; g != w { t.Errorf("got: %d; want %d closed conns", g, w) } st := db.Stats() maxIdleClosed := st.MaxIdleTimeClosed - preMaxIdleClosed if g, w := maxIdleClosed, item.wantMaxIdleClosed; g != w { t.Errorf("got: %d; want %d max idle closed conns", g, w) } }) } } type nvcDriver struct { fakeDriver skipNamedValueCheck bool } func (d *nvcDriver) Open(dsn string) (driver.Conn, error) { c, err := d.fakeDriver.Open(dsn) fc := c.(*fakeConn) fc.db.allowAny = true return &nvcConn{fc, d.skipNamedValueCheck}, err } type nvcConn struct { *fakeConn skipNamedValueCheck bool } type decimalInt struct { value int } type doNotInclude struct{} var _ driver.NamedValueChecker = &nvcConn{} func (c *nvcConn) CheckNamedValue(nv *driver.NamedValue) error { if c.skipNamedValueCheck { return driver.ErrSkip } switch v := nv.Value.(type) { default: return driver.ErrSkip case Out: switch ov := v.Dest.(type) { default: return errors.New("unknown NameValueCheck OUTPUT type") case *string: *ov = "from-server" nv.Value = "OUT:*string" } return nil case decimalInt, []int64: return nil case doNotInclude: return driver.ErrRemoveArgument } } func TestNamedValueChecker(t *testing.T) { Register("NamedValueCheck", &nvcDriver{}) db, err := Open("NamedValueCheck", "") if err != nil { t.Fatal(err) } defer db.Close() ctx, cancel := context.WithCancel(context.Background()) defer cancel() _, err = db.ExecContext(ctx, "WIPE") if err != nil { t.Fatal("exec wipe", err) } _, err = db.ExecContext(ctx, "CREATE|keys|dec1=any,str1=string,out1=string,array1=any") if err != nil { t.Fatal("exec create", err) } o1 := "" _, err = db.ExecContext(ctx, "INSERT|keys|dec1=?A,str1=?,out1=?O1,array1=?", Named("A", decimalInt{123}), "hello", Named("O1", Out{Dest: &o1}), []int64{42, 128, 707}, doNotInclude{}) if err != nil { t.Fatal("exec insert", err) } var ( str1 string dec1 decimalInt arr1 []int64 ) err = db.QueryRowContext(ctx, "SELECT|keys|dec1,str1,array1|").Scan(&dec1, &str1, &arr1) if err != nil { t.Fatal("select", err) } list := []struct{ got, want any }{ {o1, "from-server"}, {dec1, decimalInt{123}}, {str1, "hello"}, {arr1, []int64{42, 128, 707}}, } for index, item := range list { if !reflect.DeepEqual(item.got, item.want) { t.Errorf("got %#v wanted %#v for index %d", item.got, item.want, index) } } } func TestNamedValueCheckerSkip(t *testing.T) { Register("NamedValueCheckSkip", &nvcDriver{skipNamedValueCheck: true}) db, err := Open("NamedValueCheckSkip", "") if err != nil { t.Fatal(err) } defer db.Close() ctx, cancel := context.WithCancel(context.Background()) defer cancel() _, err = db.ExecContext(ctx, "WIPE") if err != nil { t.Fatal("exec wipe", err) } _, err = db.ExecContext(ctx, "CREATE|keys|dec1=any") if err != nil { t.Fatal("exec create", err) } _, err = db.ExecContext(ctx, "INSERT|keys|dec1=?A", Named("A", decimalInt{123})) if err == nil { t.Fatalf("expected error with bad argument, got %v", err) } } func TestOpenConnector(t *testing.T) { Register("testctx", &fakeDriverCtx{}) db, err := Open("testctx", "people") if err != nil { t.Fatal(err) } defer db.Close() c, ok := db.connector.(*fakeConnector) if !ok { t.Fatal("not using *fakeConnector") } if err := db.Close(); err != nil { t.Fatal(err) } if !c.closed { t.Fatal("connector is not closed") } } type ctxOnlyDriver struct { fakeDriver } func (d *ctxOnlyDriver) Open(dsn string) (driver.Conn, error) { conn, err := d.fakeDriver.Open(dsn) if err != nil { return nil, err } return &ctxOnlyConn{fc: conn.(*fakeConn)}, nil } var ( _ driver.Conn = &ctxOnlyConn{} _ driver.QueryerContext = &ctxOnlyConn{} _ driver.ExecerContext = &ctxOnlyConn{} ) type ctxOnlyConn struct { fc *fakeConn queryCtxCalled bool execCtxCalled bool } func (c *ctxOnlyConn) Begin() (driver.Tx, error) { return c.fc.Begin() } func (c *ctxOnlyConn) Close() error { return c.fc.Close() } // Prepare is still part of the Conn interface, so while it isn't used // must be defined for compatibility. func (c *ctxOnlyConn) Prepare(q string) (driver.Stmt, error) { panic("not used") } func (c *ctxOnlyConn) PrepareContext(ctx context.Context, q string) (driver.Stmt, error) { return c.fc.PrepareContext(ctx, q) } func (c *ctxOnlyConn) QueryContext(ctx context.Context, q string, args []driver.NamedValue) (driver.Rows, error) { c.queryCtxCalled = true return c.fc.QueryContext(ctx, q, args) } func (c *ctxOnlyConn) ExecContext(ctx context.Context, q string, args []driver.NamedValue) (driver.Result, error) { c.execCtxCalled = true return c.fc.ExecContext(ctx, q, args) } // TestQueryExecContextOnly ensures drivers only need to implement QueryContext // and ExecContext methods. func TestQueryExecContextOnly(t *testing.T) { // Ensure connection does not implement non-context interfaces. var connType driver.Conn = &ctxOnlyConn{} if _, ok := connType.(driver.Execer); ok { t.Fatalf("%T must not implement driver.Execer", connType) } if _, ok := connType.(driver.Queryer); ok { t.Fatalf("%T must not implement driver.Queryer", connType) } Register("ContextOnly", &ctxOnlyDriver{}) db, err := Open("ContextOnly", "") if err != nil { t.Fatal(err) } defer db.Close() ctx, cancel := context.WithCancel(context.Background()) defer cancel() conn, err := db.Conn(ctx) if err != nil { t.Fatal("db.Conn", err) } defer conn.Close() coc := conn.dc.ci.(*ctxOnlyConn) coc.fc.skipDirtySession = true _, err = conn.ExecContext(ctx, "WIPE") if err != nil { t.Fatal("exec wipe", err) } _, err = conn.ExecContext(ctx, "CREATE|keys|v1=string") if err != nil { t.Fatal("exec create", err) } expectedValue := "value1" _, err = conn.ExecContext(ctx, "INSERT|keys|v1=?", expectedValue) if err != nil { t.Fatal("exec insert", err) } rows, err := conn.QueryContext(ctx, "SELECT|keys|v1|") if err != nil { t.Fatal("query select", err) } v1 := "" for rows.Next() { err = rows.Scan(&v1) if err != nil { t.Fatal("rows scan", err) } } rows.Close() if v1 != expectedValue { t.Fatalf("expected %q, got %q", expectedValue, v1) } if !coc.execCtxCalled { t.Error("ExecContext not called") } if !coc.queryCtxCalled { t.Error("QueryContext not called") } } type alwaysErrScanner struct{} var errTestScanWrap = errors.New("errTestScanWrap") func (alwaysErrScanner) Scan(any) error { return errTestScanWrap } // Issue 38099: Ensure that Rows.Scan properly wraps underlying errors. func TestRowsScanProperlyWrapsErrors(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) rows, err := db.Query("SELECT|people|age|") if err != nil { t.Fatalf("Query: %v", err) } var res alwaysErrScanner for rows.Next() { err = rows.Scan(&res) if err == nil { t.Fatal("expecting back an error") } if !errors.Is(err, errTestScanWrap) { t.Fatalf("errors.Is mismatch\n%v\nWant: %v", err, errTestScanWrap) } // Ensure that error substring matching still correctly works. if !strings.Contains(err.Error(), errTestScanWrap.Error()) { t.Fatalf("Error %v does not contain %v", err, errTestScanWrap) } } } type alwaysErrValuer struct{} // errEmpty is returned when an empty value is found var errEmpty = errors.New("empty value") func (v alwaysErrValuer) Value() (driver.Value, error) { return nil, errEmpty } // Issue 64707: Ensure that Stmt.Exec and Stmt.Query properly wraps underlying errors. func TestDriverArgsWrapsErrors(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) t.Run("exec", func(t *testing.T) { _, err := db.Exec("INSERT|keys|dec1=?", alwaysErrValuer{}) if err == nil { t.Fatal("expecting back an error") } if !errors.Is(err, errEmpty) { t.Fatalf("errors.Is mismatch\n%v\nWant: %v", err, errEmpty) } // Ensure that error substring matching still correctly works. if !strings.Contains(err.Error(), errEmpty.Error()) { t.Fatalf("Error %v does not contain %v", err, errEmpty) } }) t.Run("query", func(t *testing.T) { _, err := db.Query("INSERT|keys|dec1=?", alwaysErrValuer{}) if err == nil { t.Fatal("expecting back an error") } if !errors.Is(err, errEmpty) { t.Fatalf("errors.Is mismatch\n%v\nWant: %v", err, errEmpty) } // Ensure that error substring matching still correctly works. if !strings.Contains(err.Error(), errEmpty.Error()) { t.Fatalf("Error %v does not contain %v", err, errEmpty) } }) } func TestContextCancelDuringRawBytesScan(t *testing.T) { for _, mode := range []string{"nocancel", "top", "bottom", "go"} { t.Run(mode, func(t *testing.T) { testContextCancelDuringRawBytesScan(t, mode) }) } } // From go.dev/issue/60304 func testContextCancelDuringRawBytesScan(t *testing.T, mode string) { db := newTestDB(t, "people") defer closeDB(t, db) if _, err := db.Exec("USE_RAWBYTES"); err != nil { t.Fatal(err) } // cancel used to call close asynchronously. // This test checks that it waits so as not to interfere with RawBytes. ctx, cancel := context.WithCancel(context.Background()) defer cancel() r, err := db.QueryContext(ctx, "SELECT|people|name|") if err != nil { t.Fatal(err) } numRows := 0 var sink byte for r.Next() { if mode == "top" && numRows == 2 { // cancel between Next and Scan is observed by Scan as err = context.Canceled. // The sleep here is only to make it more likely that the cancel will be observed. // If not, the test should still pass, like in "go" mode. cancel() time.Sleep(100 * time.Millisecond) } numRows++ var s RawBytes err = r.Scan(&s) if numRows == 3 && err == context.Canceled { if r.closemuScanHold { t.Errorf("expected closemu NOT to be held") } break } if !r.closemuScanHold { t.Errorf("expected closemu to be held") } if err != nil { t.Fatal(err) } t.Logf("read %q", s) if mode == "bottom" && numRows == 2 { // cancel before Next should be observed by Next, exiting the loop. // The sleep here is only to make it more likely that the cancel will be observed. // If not, the test should still pass, like in "go" mode. cancel() time.Sleep(100 * time.Millisecond) } if mode == "go" && numRows == 2 { // cancel at any future time, to catch other cases go cancel() } for _, b := range s { // some operation reading from the raw memory sink += b } } if r.closemuScanHold { t.Errorf("closemu held; should not be") } // There are 3 rows. We canceled after reading 2 so we expect either // 2 or 3 depending on how the awaitDone goroutine schedules. switch numRows { case 0, 1: t.Errorf("got %d rows; want 2+", numRows) case 2: if err := r.Err(); err != context.Canceled { t.Errorf("unexpected error: %v (%T)", err, err) } default: // Made it to the end. This is rare, but fine. Permit it. } if err := r.Close(); err != nil { t.Fatal(err) } } func TestContextCancelBetweenNextAndErr(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) ctx, cancel := context.WithCancel(context.Background()) defer cancel() r, err := db.QueryContext(ctx, "SELECT|people|name|") if err != nil { t.Fatal(err) } for r.Next() { } cancel() // wake up the awaitDone goroutine time.Sleep(10 * time.Millisecond) // increase odds of seeing failure if err := r.Err(); err != nil { t.Fatal(err) } } func TestNilErrorAfterClose(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) // This WithCancel is important; Rows contains an optimization to avoid // spawning a goroutine when the query/transaction context cannot be // canceled, but this test tests a bug which is caused by said goroutine. ctx, cancel := context.WithCancel(context.Background()) defer cancel() r, err := db.QueryContext(ctx, "SELECT|people|name|") if err != nil { t.Fatal(err) } if err := r.Close(); err != nil { t.Fatal(err) } time.Sleep(10 * time.Millisecond) // increase odds of seeing failure if err := r.Err(); err != nil { t.Fatal(err) } } // Issue #65201. // // If a RawBytes is reused across multiple queries, // subsequent queries shouldn't overwrite driver-owned memory from previous queries. func TestRawBytesReuse(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) if _, err := db.Exec("USE_RAWBYTES"); err != nil { t.Fatal(err) } var raw RawBytes // The RawBytes in this query aliases driver-owned memory. rows, err := db.Query("SELECT|people|name|") if err != nil { t.Fatal(err) } rows.Next() rows.Scan(&raw) // now raw is pointing to driver-owned memory name1 := string(raw) rows.Close() // The RawBytes in this query does not alias driver-owned memory. rows, err = db.Query("SELECT|people|age|") if err != nil { t.Fatal(err) } rows.Next() rows.Scan(&raw) // this must not write to the driver-owned memory in raw rows.Close() // Repeat the first query. Nothing should have changed. rows, err = db.Query("SELECT|people|name|") if err != nil { t.Fatal(err) } rows.Next() rows.Scan(&raw) // raw points to driver-owned memory again name2 := string(raw) rows.Close() if name1 != name2 { t.Fatalf("Scan read name %q, want %q", name2, name1) } } // badConn implements a bad driver.Conn, for TestBadDriver. // The Exec method panics. type badConn struct{} func (bc badConn) Prepare(query string) (driver.Stmt, error) { return nil, errors.New("badConn Prepare") } func (bc badConn) Close() error { return nil } func (bc badConn) Begin() (driver.Tx, error) { return nil, errors.New("badConn Begin") } func (bc badConn) Exec(query string, args []driver.Value) (driver.Result, error) { panic("badConn.Exec") } // badDriver is a driver.Driver that uses badConn. type badDriver struct{} func (bd badDriver) Open(name string) (driver.Conn, error) { return badConn{}, nil } // Issue 15901. func TestBadDriver(t *testing.T) { Register("bad", badDriver{}) db, err := Open("bad", "ignored") if err != nil { t.Fatal(err) } defer func() { if r := recover(); r == nil { t.Error("expected panic") } else { if want := "badConn.Exec"; r.(string) != want { t.Errorf("panic was %v, expected %v", r, want) } } }() defer db.Close() db.Exec("ignored") } type pingDriver struct { fails bool } type pingConn struct { badConn driver *pingDriver } var pingError = errors.New("Ping failed") func (pc pingConn) Ping(ctx context.Context) error { if pc.driver.fails { return pingError } return nil } var _ driver.Pinger = pingConn{} func (pd *pingDriver) Open(name string) (driver.Conn, error) { return pingConn{driver: pd}, nil } func TestPing(t *testing.T) { driver := &pingDriver{} Register("ping", driver) db, err := Open("ping", "ignored") if err != nil { t.Fatal(err) } if err := db.Ping(); err != nil { t.Errorf("err was %#v, expected nil", err) return } driver.fails = true if err := db.Ping(); err != pingError { t.Errorf("err was %#v, expected pingError", err) } } // Issue 18101. func TestTypedString(t *testing.T) { db := newTestDB(t, "people") defer closeDB(t, db) type Str string var scanned Str err := db.QueryRow("SELECT|people|name|name=?", "Alice").Scan(&scanned) if err != nil { t.Fatal(err) } expected := Str("Alice") if scanned != expected { t.Errorf("expected %+v, got %+v", expected, scanned) } } func BenchmarkConcurrentDBExec(b *testing.B) { b.ReportAllocs() ct := new(concurrentDBExecTest) for i := 0; i < b.N; i++ { doConcurrentTest(b, ct) } } func BenchmarkConcurrentStmtQuery(b *testing.B) { b.ReportAllocs() ct := new(concurrentStmtQueryTest) for i := 0; i < b.N; i++ { doConcurrentTest(b, ct) } } func BenchmarkConcurrentStmtExec(b *testing.B) { b.ReportAllocs() ct := new(concurrentStmtExecTest) for i := 0; i < b.N; i++ { doConcurrentTest(b, ct) } } func BenchmarkConcurrentTxQuery(b *testing.B) { b.ReportAllocs() ct := new(concurrentTxQueryTest) for i := 0; i < b.N; i++ { doConcurrentTest(b, ct) } } func BenchmarkConcurrentTxExec(b *testing.B) { b.ReportAllocs() ct := new(concurrentTxExecTest) for i := 0; i < b.N; i++ { doConcurrentTest(b, ct) } } func BenchmarkConcurrentTxStmtQuery(b *testing.B) { b.ReportAllocs() ct := new(concurrentTxStmtQueryTest) for i := 0; i < b.N; i++ { doConcurrentTest(b, ct) } } func BenchmarkConcurrentTxStmtExec(b *testing.B) { b.ReportAllocs() ct := new(concurrentTxStmtExecTest) for i := 0; i < b.N; i++ { doConcurrentTest(b, ct) } } func BenchmarkConcurrentRandom(b *testing.B) { b.ReportAllocs() ct := new(concurrentRandomTest) for i := 0; i < b.N; i++ { doConcurrentTest(b, ct) } } func BenchmarkManyConcurrentQueries(b *testing.B) { b.ReportAllocs() // To see lock contention in Go 1.4, 16~ cores and 128~ goroutines are required. const parallelism = 16 db := newTestDB(b, "magicquery") defer closeDB(b, db) db.SetMaxIdleConns(runtime.GOMAXPROCS(0) * parallelism) stmt, err := db.Prepare("SELECT|magicquery|op|op=?,millis=?") if err != nil { b.Fatal(err) } defer stmt.Close() b.SetParallelism(parallelism) b.RunParallel(func(pb *testing.PB) { for pb.Next() { rows, err := stmt.Query("sleep", 1) if err != nil { b.Error(err) return } rows.Close() } }) } func TestGrabConnAllocs(t *testing.T) { testenv.SkipIfOptimizationOff(t) if race.Enabled { t.Skip("skipping allocation test when using race detector") } c := new(Conn) ctx := context.Background() n := int(testing.AllocsPerRun(1000, func() { _, release, err := c.grabConn(ctx) if err != nil { t.Fatal(err) } release(nil) })) if n > 0 { t.Fatalf("Conn.grabConn allocated %v objects; want 0", n) } } func BenchmarkGrabConn(b *testing.B) { b.ReportAllocs() c := new(Conn) ctx := context.Background() for i := 0; i < b.N; i++ { _, release, err := c.grabConn(ctx) if err != nil { b.Fatal(err) } release(nil) } } func TestConnRequestSet(t *testing.T) { var s connRequestSet wantLen := func(want int) { t.Helper() if got := s.Len(); got != want { t.Errorf("Len = %d; want %d", got, want) } if want == 0 && !t.Failed() { if _, ok := s.TakeRandom(); ok { t.Fatalf("TakeRandom returned result when empty") } } } reset := func() { s = connRequestSet{} } t.Run("add-delete", func(t *testing.T) { reset() wantLen(0) dh := s.Add(nil) wantLen(1) if !s.Delete(dh) { t.Fatal("failed to delete") } wantLen(0) if s.Delete(dh) { t.Error("delete worked twice") } wantLen(0) }) t.Run("take-before-delete", func(t *testing.T) { reset() ch1 := make(chan connRequest) dh := s.Add(ch1) wantLen(1) if got, ok := s.TakeRandom(); !ok || got != ch1 { t.Fatalf("wrong take; ok=%v", ok) } wantLen(0) if s.Delete(dh) { t.Error("unexpected delete after take") } }) t.Run("get-take-many", func(t *testing.T) { reset() m := map[chan connRequest]bool{} const N = 100 var inOrder, backOut []chan connRequest for range N { c := make(chan connRequest) m[c] = true s.Add(c) inOrder = append(inOrder, c) } if s.Len() != N { t.Fatalf("Len = %v; want %v", s.Len(), N) } for s.Len() > 0 { c, ok := s.TakeRandom() if !ok { t.Fatal("failed to take when non-empty") } if !m[c] { t.Fatal("returned item not in remaining set") } delete(m, c) backOut = append(backOut, c) } if len(m) > 0 { t.Error("items remain in expected map") } if slices.Equal(inOrder, backOut) { // N! chance of flaking; N=100 is fine t.Error("wasn't random") } }) t.Run("close-delete", func(t *testing.T) { reset() ch := make(chan connRequest) dh := s.Add(ch) wantLen(1) s.CloseAndRemoveAll() wantLen(0) if s.Delete(dh) { t.Error("unexpected delete after CloseAndRemoveAll") } }) } func BenchmarkConnRequestSet(b *testing.B) { var s connRequestSet for range b.N { for range 16 { s.Add(nil) } for range 8 { if _, ok := s.TakeRandom(); !ok { b.Fatal("want ok") } } for range 8 { s.Add(nil) } for range 16 { if _, ok := s.TakeRandom(); !ok { b.Fatal("want ok") } } if _, ok := s.TakeRandom(); ok { b.Fatal("unexpected ok") } } }