// +build all cassandra package gocql import ( "bytes" "context" "errors" "fmt" "io" "math" "math/big" "net" "reflect" "strconv" "strings" "sync" "testing" "time" "unicode" inf "gopkg.in/inf.v0" ) func TestEmptyHosts(t *testing.T) { cluster := createCluster() cluster.Hosts = nil if session, err := cluster.CreateSession(); err == nil { session.Close() t.Error("expected err, got nil") } } func TestInvalidPeerEntry(t *testing.T) { t.Skip("dont mutate system tables, rewrite this to test what we mean to test") session := createSession(t) // rack, release_version, schema_version, tokens are all null query := session.Query("INSERT into system.peers (peer, data_center, host_id, rpc_address) VALUES (?, ?, ?, ?)", "169.254.235.45", "datacenter1", "35c0ec48-5109-40fd-9281-9e9d4add2f1e", "169.254.235.45", ) if err := query.Exec(); err != nil { t.Fatal(err) } session.Close() cluster := createCluster() cluster.PoolConfig.HostSelectionPolicy = TokenAwareHostPolicy(RoundRobinHostPolicy()) session = createSessionFromCluster(cluster, t) defer func() { session.Query("DELETE from system.peers where peer = ?", "169.254.235.45").Exec() session.Close() }() // check we can perform a query iter := session.Query("select peer from system.peers").Iter() var peer string for iter.Scan(&peer) { } if err := iter.Close(); err != nil { t.Fatal(err) } } //TestUseStatementError checks to make sure the correct error is returned when the user tries to execute a use statement. func TestUseStatementError(t *testing.T) { session := createSession(t) defer session.Close() if err := session.Query("USE gocql_test").Exec(); err != nil { if err != ErrUseStmt { t.Fatalf("expected ErrUseStmt, got " + err.Error()) } } else { t.Fatal("expected err, got nil.") } } //TestInvalidKeyspace checks that an invalid keyspace will return promptly and without a flood of connections func TestInvalidKeyspace(t *testing.T) { cluster := createCluster() cluster.Keyspace = "invalidKeyspace" session, err := cluster.CreateSession() if err != nil { if err != ErrNoConnectionsStarted { t.Fatalf("Expected ErrNoConnections but got %v", err) } } else { session.Close() //Clean up the session t.Fatal("expected err, got nil.") } } func TestTracing(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, `CREATE TABLE gocql_test.trace (id int primary key)`); err != nil { t.Fatal("create:", err) } buf := &bytes.Buffer{} trace := &traceWriter{session: session, w: buf} if err := session.Query(`INSERT INTO trace (id) VALUES (?)`, 42).Trace(trace).Exec(); err != nil { t.Fatal("insert:", err) } else if buf.Len() == 0 { t.Fatal("insert: failed to obtain any tracing") } trace.mu.Lock() buf.Reset() trace.mu.Unlock() var value int if err := session.Query(`SELECT id FROM trace WHERE id = ?`, 42).Trace(trace).Scan(&value); err != nil { t.Fatal("select:", err) } else if value != 42 { t.Fatalf("value: expected %d, got %d", 42, value) } else if buf.Len() == 0 { t.Fatal("select: failed to obtain any tracing") } // also works from session tracer session.SetTrace(trace) trace.mu.Lock() buf.Reset() trace.mu.Unlock() if err := session.Query(`SELECT id FROM trace WHERE id = ?`, 42).Scan(&value); err != nil { t.Fatal("select:", err) } if buf.Len() == 0 { t.Fatal("select: failed to obtain any tracing") } } func TestObserve(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, `CREATE TABLE gocql_test.observe (id int primary key)`); err != nil { t.Fatal("create:", err) } var ( observedErr error observedKeyspace string observedStmt string ) const keyspace = "gocql_test" resetObserved := func() { observedErr = errors.New("placeholder only") // used to distinguish err=nil cases observedKeyspace = "" observedStmt = "" } observer := funcQueryObserver(func(ctx context.Context, o ObservedQuery) { observedKeyspace = o.Keyspace observedStmt = o.Statement observedErr = o.Err }) // select before inserted, will error but the reporting is err=nil as the query is valid resetObserved() var value int if err := session.Query(`SELECT id FROM observe WHERE id = ?`, 43).Observer(observer).Scan(&value); err == nil { t.Fatal("select: expected error") } else if observedErr != nil { t.Fatalf("select: observed error expected nil, got %q", observedErr) } else if observedKeyspace != keyspace { t.Fatal("select: unexpected observed keyspace", observedKeyspace) } else if observedStmt != `SELECT id FROM observe WHERE id = ?` { t.Fatal("select: unexpected observed stmt", observedStmt) } resetObserved() if err := session.Query(`INSERT INTO observe (id) VALUES (?)`, 42).Observer(observer).Exec(); err != nil { t.Fatal("insert:", err) } else if observedErr != nil { t.Fatal("insert:", observedErr) } else if observedKeyspace != keyspace { t.Fatal("insert: unexpected observed keyspace", observedKeyspace) } else if observedStmt != `INSERT INTO observe (id) VALUES (?)` { t.Fatal("insert: unexpected observed stmt", observedStmt) } resetObserved() value = 0 if err := session.Query(`SELECT id FROM observe WHERE id = ?`, 42).Observer(observer).Scan(&value); err != nil { t.Fatal("select:", err) } else if value != 42 { t.Fatalf("value: expected %d, got %d", 42, value) } else if observedErr != nil { t.Fatal("select:", observedErr) } else if observedKeyspace != keyspace { t.Fatal("select: unexpected observed keyspace", observedKeyspace) } else if observedStmt != `SELECT id FROM observe WHERE id = ?` { t.Fatal("select: unexpected observed stmt", observedStmt) } // also works from session observer resetObserved() oSession := createSession(t, func(config *ClusterConfig) { config.QueryObserver = observer }) if err := oSession.Query(`SELECT id FROM observe WHERE id = ?`, 42).Scan(&value); err != nil { t.Fatal("select:", err) } else if observedErr != nil { t.Fatal("select:", err) } else if observedKeyspace != keyspace { t.Fatal("select: unexpected observed keyspace", observedKeyspace) } else if observedStmt != `SELECT id FROM observe WHERE id = ?` { t.Fatal("select: unexpected observed stmt", observedStmt) } // reports errors when the query is poorly formed resetObserved() value = 0 if err := session.Query(`SELECT id FROM unknown_table WHERE id = ?`, 42).Observer(observer).Scan(&value); err == nil { t.Fatal("select: expecting error") } else if observedErr == nil { t.Fatal("select: expecting observed error") } else if observedKeyspace != keyspace { t.Fatal("select: unexpected observed keyspace", observedKeyspace) } else if observedStmt != `SELECT id FROM unknown_table WHERE id = ?` { t.Fatal("select: unexpected observed stmt", observedStmt) } } func TestObserve_Pagination(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, `CREATE TABLE gocql_test.observe2 (id int, PRIMARY KEY (id))`); err != nil { t.Fatal("create:", err) } var observedRows int resetObserved := func() { observedRows = -1 } observer := funcQueryObserver(func(ctx context.Context, o ObservedQuery) { observedRows = o.Rows }) // insert 100 entries, relevant for pagination for i := 0; i < 50; i++ { if err := session.Query(`INSERT INTO observe2 (id) VALUES (?)`, i).Exec(); err != nil { t.Fatal("insert:", err) } } resetObserved() // read the 100 entries in paginated entries of size 10. Expecting 5 observations, each with 10 rows scanner := session.Query(`SELECT id FROM observe2 LIMIT 100`). Observer(observer). PageSize(10). Iter().Scanner() for i := 0; i < 50; i++ { if !scanner.Next() { t.Fatalf("next: should still be true: %d: %v", i, scanner.Err()) } if i%10 == 0 { if observedRows != 10 { t.Fatalf("next: expecting a paginated query with 10 entries, got: %d (%d)", observedRows, i) } } else if observedRows != -1 { t.Fatalf("next: not expecting paginated query (-1 entries), got: %d", observedRows) } resetObserved() } if scanner.Next() { t.Fatal("next: no more entries where expected") } } func TestPaging(t *testing.T) { session := createSession(t) defer session.Close() if session.cfg.ProtoVersion == 1 { t.Skip("Paging not supported. Please use Cassandra >= 2.0") } if err := createTable(session, "CREATE TABLE gocql_test.paging (id int primary key)"); err != nil { t.Fatal("create table:", err) } for i := 0; i < 100; i++ { if err := session.Query("INSERT INTO paging (id) VALUES (?)", i).Exec(); err != nil { t.Fatal("insert:", err) } } iter := session.Query("SELECT id FROM paging").PageSize(10).Iter() var id int count := 0 for iter.Scan(&id) { count++ } if err := iter.Close(); err != nil { t.Fatal("close:", err) } if count != 100 { t.Fatalf("expected %d, got %d", 100, count) } } func TestPagingWithBind(t *testing.T) { session := createSession(t) defer session.Close() if session.cfg.ProtoVersion == 1 { t.Skip("Paging not supported. Please use Cassandra >= 2.0") } if err := createTable(session, "CREATE TABLE gocql_test.paging_bind (id int, val int, primary key(id,val))"); err != nil { t.Fatal("create table:", err) } for i := 0; i < 100; i++ { if err := session.Query("INSERT INTO paging_bind (id,val) VALUES (?,?)", 1,i).Exec(); err != nil { t.Fatal("insert:", err) } } q := session.Query("SELECT val FROM paging_bind WHERE id = ? AND val < ?",1, 50).PageSize(10) iter := q.Iter() var id int count := 0 for iter.Scan(&id) { count++ } if err := iter.Close(); err != nil { t.Fatal("close:", err) } if count != 50 { t.Fatalf("expected %d, got %d", 50, count) } iter = q.Bind(1, 20).Iter() count = 0 for iter.Scan(&id) { count++ } if count != 20 { t.Fatalf("expected %d, got %d", 20, count) } if err := iter.Close(); err != nil { t.Fatal("close:", err) } } func TestCAS(t *testing.T) { cluster := createCluster() cluster.SerialConsistency = LocalSerial session := createSessionFromCluster(cluster, t) defer session.Close() if session.cfg.ProtoVersion == 1 { t.Skip("lightweight transactions not supported. Please use Cassandra >= 2.0") } if err := createTable(session, `CREATE TABLE gocql_test.cas_table ( title varchar, revid timeuuid, last_modified timestamp, PRIMARY KEY (title, revid) )`); err != nil { t.Fatal("create:", err) } title, revid, modified := "baz", TimeUUID(), time.Now() var titleCAS string var revidCAS UUID var modifiedCAS time.Time if applied, err := session.Query(`INSERT INTO cas_table (title, revid, last_modified) VALUES (?, ?, ?) IF NOT EXISTS`, title, revid, modified).ScanCAS(&titleCAS, &revidCAS, &modifiedCAS); err != nil { t.Fatal("insert:", err) } else if !applied { t.Fatal("insert should have been applied") } if applied, err := session.Query(`INSERT INTO cas_table (title, revid, last_modified) VALUES (?, ?, ?) IF NOT EXISTS`, title, revid, modified).ScanCAS(&titleCAS, &revidCAS, &modifiedCAS); err != nil { t.Fatal("insert:", err) } else if applied { t.Fatal("insert should not have been applied") } else if title != titleCAS || revid != revidCAS { t.Fatalf("expected %s/%v/%v but got %s/%v/%v", title, revid, modified, titleCAS, revidCAS, modifiedCAS) } tenSecondsLater := modified.Add(10 * time.Second) if applied, err := session.Query(`DELETE FROM cas_table WHERE title = ? and revid = ? IF last_modified = ?`, title, revid, tenSecondsLater).ScanCAS(&modifiedCAS); err != nil { t.Fatal("delete:", err) } else if applied { t.Fatal("delete should have not been applied") } if modifiedCAS.Unix() != tenSecondsLater.Add(-10*time.Second).Unix() { t.Fatalf("Was expecting modified CAS to be %v; but was one second later", modifiedCAS.UTC()) } if _, err := session.Query(`DELETE FROM cas_table WHERE title = ? and revid = ? IF last_modified = ?`, title, revid, tenSecondsLater).ScanCAS(); !strings.HasPrefix(err.Error(), "gocql: not enough columns to scan into") { t.Fatalf("delete: was expecting count mismatch error but got: %q", err.Error()) } if applied, err := session.Query(`DELETE FROM cas_table WHERE title = ? and revid = ? IF last_modified = ?`, title, revid, modified).ScanCAS(&modifiedCAS); err != nil { t.Fatal("delete:", err) } else if !applied { t.Fatal("delete should have been applied") } if err := session.Query(`TRUNCATE cas_table`).Exec(); err != nil { t.Fatal("truncate:", err) } successBatch := session.NewBatch(LoggedBatch) successBatch.Query("INSERT INTO cas_table (title, revid, last_modified) VALUES (?, ?, ?) IF NOT EXISTS", title, revid, modified) if applied, _, err := session.ExecuteBatchCAS(successBatch, &titleCAS, &revidCAS, &modifiedCAS); err != nil { t.Fatal("insert:", err) } else if !applied { t.Fatalf("insert should have been applied: title=%v revID=%v modified=%v", titleCAS, revidCAS, modifiedCAS) } successBatch = session.NewBatch(LoggedBatch) successBatch.Query("INSERT INTO cas_table (title, revid, last_modified) VALUES (?, ?, ?) IF NOT EXISTS", title+"_foo", revid, modified) casMap := make(map[string]interface{}) if applied, _, err := session.MapExecuteBatchCAS(successBatch, casMap); err != nil { t.Fatal("insert:", err) } else if !applied { t.Fatal("insert should have been applied") } failBatch := session.NewBatch(LoggedBatch) failBatch.Query("INSERT INTO cas_table (title, revid, last_modified) VALUES (?, ?, ?) IF NOT EXISTS", title, revid, modified) if applied, _, err := session.ExecuteBatchCAS(successBatch, &titleCAS, &revidCAS, &modifiedCAS); err != nil { t.Fatal("insert:", err) } else if applied { t.Fatalf("insert should have been applied: title=%v revID=%v modified=%v", titleCAS, revidCAS, modifiedCAS) } insertBatch := session.NewBatch(LoggedBatch) insertBatch.Query("INSERT INTO cas_table (title, revid, last_modified) VALUES ('_foo', 2c3af400-73a4-11e5-9381-29463d90c3f0, DATEOF(NOW()))") insertBatch.Query("INSERT INTO cas_table (title, revid, last_modified) VALUES ('_foo', 3e4ad2f1-73a4-11e5-9381-29463d90c3f0, DATEOF(NOW()))") if err := session.ExecuteBatch(insertBatch); err != nil { t.Fatal("insert:", err) } failBatch = session.NewBatch(LoggedBatch) failBatch.Query("UPDATE cas_table SET last_modified = DATEOF(NOW()) WHERE title='_foo' AND revid=2c3af400-73a4-11e5-9381-29463d90c3f0 IF last_modified=DATEOF(NOW());") failBatch.Query("UPDATE cas_table SET last_modified = DATEOF(NOW()) WHERE title='_foo' AND revid=3e4ad2f1-73a4-11e5-9381-29463d90c3f0 IF last_modified=DATEOF(NOW());") if applied, iter, err := session.ExecuteBatchCAS(failBatch, &titleCAS, &revidCAS, &modifiedCAS); err != nil { t.Fatal("insert:", err) } else if applied { t.Fatalf("insert should have been applied: title=%v revID=%v modified=%v", titleCAS, revidCAS, modifiedCAS) } else { if scan := iter.Scan(&applied, &titleCAS, &revidCAS, &modifiedCAS); scan && applied { t.Fatalf("insert should have been applied: title=%v revID=%v modified=%v", titleCAS, revidCAS, modifiedCAS) } else if !scan { t.Fatal("should have scanned another row") } if err := iter.Close(); err != nil { t.Fatal("scan:", err) } } } func TestDurationType(t *testing.T) { session := createSession(t) defer session.Close() if session.cfg.ProtoVersion < 5 { t.Skip("Duration type is not supported. Please use protocol version >= 4 and cassandra version >= 3.11") } if err := createTable(session, `CREATE TABLE gocql_test.duration_table ( k int primary key, v duration )`); err != nil { t.Fatal("create:", err) } durations := []Duration{ Duration{ Months: 250, Days: 500, Nanoseconds: 300010001, }, Duration{ Months: -250, Days: -500, Nanoseconds: -300010001, }, Duration{ Months: 0, Days: 128, Nanoseconds: 127, }, Duration{ Months: 0x7FFFFFFF, Days: 0x7FFFFFFF, Nanoseconds: 0x7FFFFFFFFFFFFFFF, }, } for _, durationSend := range durations { if err := session.Query(`INSERT INTO gocql_test.duration_table (k, v) VALUES (1, ?)`, durationSend).Exec(); err != nil { t.Fatal(err) } var id int var duration Duration if err := session.Query(`SELECT k, v FROM gocql_test.duration_table`).Scan(&id, &duration); err != nil { t.Fatal(err) } if duration.Months != durationSend.Months || duration.Days != durationSend.Days || duration.Nanoseconds != durationSend.Nanoseconds { t.Fatalf("Unexpeted value returned, expected=%v, received=%v", durationSend, duration) } } } func TestMapScanCAS(t *testing.T) { session := createSession(t) defer session.Close() if session.cfg.ProtoVersion == 1 { t.Skip("lightweight transactions not supported. Please use Cassandra >= 2.0") } if err := createTable(session, `CREATE TABLE gocql_test.cas_table2 ( title varchar, revid timeuuid, last_modified timestamp, deleted boolean, PRIMARY KEY (title, revid) )`); err != nil { t.Fatal("create:", err) } title, revid, modified, deleted := "baz", TimeUUID(), time.Now(), false mapCAS := map[string]interface{}{} if applied, err := session.Query(`INSERT INTO cas_table2 (title, revid, last_modified, deleted) VALUES (?, ?, ?, ?) IF NOT EXISTS`, title, revid, modified, deleted).MapScanCAS(mapCAS); err != nil { t.Fatal("insert:", err) } else if !applied { t.Fatalf("insert should have been applied: title=%v revID=%v modified=%v", title, revid, modified) } mapCAS = map[string]interface{}{} if applied, err := session.Query(`INSERT INTO cas_table2 (title, revid, last_modified, deleted) VALUES (?, ?, ?, ?) IF NOT EXISTS`, title, revid, modified, deleted).MapScanCAS(mapCAS); err != nil { t.Fatal("insert:", err) } else if applied { t.Fatalf("insert should have been applied: title=%v revID=%v modified=%v", title, revid, modified) } else if title != mapCAS["title"] || revid != mapCAS["revid"] || deleted != mapCAS["deleted"] { t.Fatalf("expected %s/%v/%v/%v but got %s/%v/%v%v", title, revid, modified, false, mapCAS["title"], mapCAS["revid"], mapCAS["last_modified"], mapCAS["deleted"]) } } func TestBatch(t *testing.T) { session := createSession(t) defer session.Close() if session.cfg.ProtoVersion == 1 { t.Skip("atomic batches not supported. Please use Cassandra >= 2.0") } if err := createTable(session, `CREATE TABLE gocql_test.batch_table (id int primary key)`); err != nil { t.Fatal("create table:", err) } batch := session.NewBatch(LoggedBatch) for i := 0; i < 100; i++ { batch.Query(`INSERT INTO batch_table (id) VALUES (?)`, i) } if err := session.ExecuteBatch(batch); err != nil { t.Fatal("execute batch:", err) } count := 0 if err := session.Query(`SELECT COUNT(*) FROM batch_table`).Scan(&count); err != nil { t.Fatal("select count:", err) } else if count != 100 { t.Fatalf("count: expected %d, got %d\n", 100, count) } } func TestUnpreparedBatch(t *testing.T) { t.Skip("FLAKE skipping") session := createSession(t) defer session.Close() if session.cfg.ProtoVersion == 1 { t.Skip("atomic batches not supported. Please use Cassandra >= 2.0") } if err := createTable(session, `CREATE TABLE gocql_test.batch_unprepared (id int primary key, c counter)`); err != nil { t.Fatal("create table:", err) } var batch *Batch if session.cfg.ProtoVersion == 2 { batch = session.NewBatch(CounterBatch) } else { batch = session.NewBatch(UnloggedBatch) } for i := 0; i < 100; i++ { batch.Query(`UPDATE batch_unprepared SET c = c + 1 WHERE id = 1`) } if err := session.ExecuteBatch(batch); err != nil { t.Fatal("execute batch:", err) } count := 0 if err := session.Query(`SELECT COUNT(*) FROM batch_unprepared`).Scan(&count); err != nil { t.Fatal("select count:", err) } else if count != 1 { t.Fatalf("count: expected %d, got %d\n", 100, count) } if err := session.Query(`SELECT c FROM batch_unprepared`).Scan(&count); err != nil { t.Fatal("select count:", err) } else if count != 100 { t.Fatalf("count: expected %d, got %d\n", 100, count) } } // TestBatchLimit tests gocql to make sure batch operations larger than the maximum // statement limit are not submitted to a cassandra node. func TestBatchLimit(t *testing.T) { session := createSession(t) defer session.Close() if session.cfg.ProtoVersion == 1 { t.Skip("atomic batches not supported. Please use Cassandra >= 2.0") } if err := createTable(session, `CREATE TABLE gocql_test.batch_table2 (id int primary key)`); err != nil { t.Fatal("create table:", err) } batch := session.NewBatch(LoggedBatch) for i := 0; i < 65537; i++ { batch.Query(`INSERT INTO batch_table2 (id) VALUES (?)`, i) } if err := session.ExecuteBatch(batch); err != ErrTooManyStmts { t.Fatal("gocql attempted to execute a batch larger than the support limit of statements.") } } func TestWhereIn(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, `CREATE TABLE gocql_test.where_in_table (id int, cluster int, primary key (id,cluster))`); err != nil { t.Fatal("create table:", err) } if err := session.Query("INSERT INTO where_in_table (id, cluster) VALUES (?,?)", 100, 200).Exec(); err != nil { t.Fatal("insert:", err) } iter := session.Query("SELECT * FROM where_in_table WHERE id = ? AND cluster IN (?)", 100, 200).Iter() var id, cluster int count := 0 for iter.Scan(&id, &cluster) { count++ } if id != 100 || cluster != 200 { t.Fatalf("Was expecting id and cluster to be (100,200) but were (%d,%d)", id, cluster) } } // TestTooManyQueryArgs tests to make sure the library correctly handles the application level bug // whereby too many query arguments are passed to a query func TestTooManyQueryArgs(t *testing.T) { session := createSession(t) defer session.Close() if session.cfg.ProtoVersion == 1 { t.Skip("atomic batches not supported. Please use Cassandra >= 2.0") } if err := createTable(session, `CREATE TABLE gocql_test.too_many_query_args (id int primary key, value int)`); err != nil { t.Fatal("create table:", err) } _, err := session.Query(`SELECT * FROM too_many_query_args WHERE id = ?`, 1, 2).Iter().SliceMap() if err == nil { t.Fatal("'`SELECT * FROM too_many_query_args WHERE id = ?`, 1, 2' should return an error") } batch := session.NewBatch(UnloggedBatch) batch.Query("INSERT INTO too_many_query_args (id, value) VALUES (?, ?)", 1, 2, 3) err = session.ExecuteBatch(batch) if err == nil { t.Fatal("'`INSERT INTO too_many_query_args (id, value) VALUES (?, ?)`, 1, 2, 3' should return an error") } // TODO: should indicate via an error code that it is an invalid arg? } // TestNotEnoughQueryArgs tests to make sure the library correctly handles the application level bug // whereby not enough query arguments are passed to a query func TestNotEnoughQueryArgs(t *testing.T) { session := createSession(t) defer session.Close() if session.cfg.ProtoVersion == 1 { t.Skip("atomic batches not supported. Please use Cassandra >= 2.0") } if err := createTable(session, `CREATE TABLE gocql_test.not_enough_query_args (id int, cluster int, value int, primary key (id, cluster))`); err != nil { t.Fatal("create table:", err) } _, err := session.Query(`SELECT * FROM not_enough_query_args WHERE id = ? and cluster = ?`, 1).Iter().SliceMap() if err == nil { t.Fatal("'`SELECT * FROM not_enough_query_args WHERE id = ? and cluster = ?`, 1' should return an error") } batch := session.NewBatch(UnloggedBatch) batch.Query("INSERT INTO not_enough_query_args (id, cluster, value) VALUES (?, ?, ?)", 1, 2) err = session.ExecuteBatch(batch) if err == nil { t.Fatal("'`INSERT INTO not_enough_query_args (id, cluster, value) VALUES (?, ?, ?)`, 1, 2' should return an error") } } // TestCreateSessionTimeout tests to make sure the CreateSession function timeouts out correctly // and prevents an infinite loop of connection retries. func TestCreateSessionTimeout(t *testing.T) { ctx, cancel := context.WithCancel(context.Background()) defer cancel() go func() { select { case <-time.After(2 * time.Second): t.Error("no startup timeout") case <-ctx.Done(): } }() cluster := createCluster() cluster.Hosts = []string{"127.0.0.1:1"} session, err := cluster.CreateSession() if err == nil { session.Close() t.Fatal("expected ErrNoConnectionsStarted, but no error was returned.") } } func TestReconnection(t *testing.T) { cluster := createCluster() cluster.ReconnectInterval = 1 * time.Second session := createSessionFromCluster(cluster, t) defer session.Close() h := session.ring.allHosts()[0] session.handleNodeDown(h.ConnectAddress(), h.Port()) if h.State() != NodeDown { t.Fatal("Host should be NodeDown but not.") } time.Sleep(cluster.ReconnectInterval + h.Version().nodeUpDelay() + 1*time.Second) if h.State() != NodeUp { t.Fatal("Host should be NodeUp but not. Failed to reconnect.") } } type FullName struct { FirstName string LastName string } func (n FullName) MarshalCQL(info TypeInfo) ([]byte, error) { return []byte(n.FirstName + " " + n.LastName), nil } func (n *FullName) UnmarshalCQL(info TypeInfo, data []byte) error { t := strings.SplitN(string(data), " ", 2) n.FirstName, n.LastName = t[0], t[1] return nil } func TestMapScanWithRefMap(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, `CREATE TABLE gocql_test.scan_map_ref_table ( testtext text PRIMARY KEY, testfullname text, testint int, )`); err != nil { t.Fatal("create table:", err) } m := make(map[string]interface{}) m["testtext"] = "testtext" m["testfullname"] = FullName{"John", "Doe"} m["testint"] = 100 if err := session.Query(`INSERT INTO scan_map_ref_table (testtext, testfullname, testint) values (?,?,?)`, m["testtext"], m["testfullname"], m["testint"]).Exec(); err != nil { t.Fatal("insert:", err) } var testText string var testFullName FullName ret := map[string]interface{}{ "testtext": &testText, "testfullname": &testFullName, // testint is not set here. } iter := session.Query(`SELECT * FROM scan_map_ref_table`).Iter() if ok := iter.MapScan(ret); !ok { t.Fatal("select:", iter.Close()) } else { if ret["testtext"] != "testtext" { t.Fatal("returned testtext did not match") } f := ret["testfullname"].(FullName) if f.FirstName != "John" || f.LastName != "Doe" { t.Fatal("returned testfullname did not match") } if ret["testint"] != 100 { t.Fatal("returned testinit did not match") } } if testText != "testtext" { t.Fatal("returned testtext did not match") } if testFullName.FirstName != "John" || testFullName.LastName != "Doe" { t.Fatal("returned testfullname did not match") } // using MapScan to read a nil int value intp := new(int64) ret = map[string]interface{}{ "testint": &intp, } if err := session.Query("INSERT INTO scan_map_ref_table(testtext, testint) VALUES(?, ?)", "null-int", nil).Exec(); err != nil { t.Fatal(err) } err := session.Query(`SELECT testint FROM scan_map_ref_table WHERE testtext = ?`, "null-int").MapScan(ret) if err != nil { t.Fatal(err) } else if v := ret["testint"].(*int64); v != nil { t.Fatalf("testint should be nil got %+#v", v) } } func TestMapScan(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, `CREATE TABLE gocql_test.scan_map_table ( fullname text PRIMARY KEY, age int, address inet, )`); err != nil { t.Fatal("create table:", err) } if err := session.Query(`INSERT INTO scan_map_table (fullname, age, address) values (?,?,?)`, "Grace Hopper", 31, net.ParseIP("10.0.0.1")).Exec(); err != nil { t.Fatal("insert:", err) } if err := session.Query(`INSERT INTO scan_map_table (fullname, age, address) values (?,?,?)`, "Ada Lovelace", 30, net.ParseIP("10.0.0.2")).Exec(); err != nil { t.Fatal("insert:", err) } iter := session.Query(`SELECT * FROM scan_map_table`).Iter() // First iteration row := make(map[string]interface{}) if !iter.MapScan(row) { t.Fatal("select:", iter.Close()) } assertEqual(t, "fullname", "Ada Lovelace", row["fullname"]) assertEqual(t, "age", 30, row["age"]) assertEqual(t, "address", "10.0.0.2", row["address"]) // Second iteration using a new map row = make(map[string]interface{}) if !iter.MapScan(row) { t.Fatal("select:", iter.Close()) } assertEqual(t, "fullname", "Grace Hopper", row["fullname"]) assertEqual(t, "age", 31, row["age"]) assertEqual(t, "address", "10.0.0.1", row["address"]) } func TestSliceMap(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, `CREATE TABLE gocql_test.slice_map_table ( testuuid timeuuid PRIMARY KEY, testtimestamp timestamp, testvarchar varchar, testbigint bigint, testblob blob, testbool boolean, testfloat float, testdouble double, testint int, testdecimal decimal, testlist list, testset set, testmap map, testvarint varint, testinet inet )`); err != nil { t.Fatal("create table:", err) } m := make(map[string]interface{}) bigInt := new(big.Int) if _, ok := bigInt.SetString("830169365738487321165427203929228", 10); !ok { t.Fatal("Failed setting bigint by string") } m["testuuid"] = TimeUUID() m["testvarchar"] = "Test VarChar" m["testbigint"] = time.Now().Unix() m["testtimestamp"] = time.Now().Truncate(time.Millisecond).UTC() m["testblob"] = []byte("test blob") m["testbool"] = true m["testfloat"] = float32(4.564) m["testdouble"] = float64(4.815162342) m["testint"] = 2343 m["testdecimal"] = inf.NewDec(100, 0) m["testlist"] = []string{"quux", "foo", "bar", "baz", "quux"} m["testset"] = []int{1, 2, 3, 4, 5, 6, 7, 8, 9} m["testmap"] = map[string]string{"field1": "val1", "field2": "val2", "field3": "val3"} m["testvarint"] = bigInt m["testinet"] = "213.212.2.19" sliceMap := []map[string]interface{}{m} if err := session.Query(`INSERT INTO slice_map_table (testuuid, testtimestamp, testvarchar, testbigint, testblob, testbool, testfloat, testdouble, testint, testdecimal, testlist, testset, testmap, testvarint, testinet) VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?, ?)`, m["testuuid"], m["testtimestamp"], m["testvarchar"], m["testbigint"], m["testblob"], m["testbool"], m["testfloat"], m["testdouble"], m["testint"], m["testdecimal"], m["testlist"], m["testset"], m["testmap"], m["testvarint"], m["testinet"]).Exec(); err != nil { t.Fatal("insert:", err) } if returned, retErr := session.Query(`SELECT * FROM slice_map_table`).Iter().SliceMap(); retErr != nil { t.Fatal("select:", retErr) } else { matchSliceMap(t, sliceMap, returned[0]) } // Test for Iter.MapScan() { testMap := make(map[string]interface{}) if !session.Query(`SELECT * FROM slice_map_table`).Iter().MapScan(testMap) { t.Fatal("MapScan failed to work with one row") } matchSliceMap(t, sliceMap, testMap) } // Test for Query.MapScan() { testMap := make(map[string]interface{}) if session.Query(`SELECT * FROM slice_map_table`).MapScan(testMap) != nil { t.Fatal("MapScan failed to work with one row") } matchSliceMap(t, sliceMap, testMap) } } func matchSliceMap(t *testing.T, sliceMap []map[string]interface{}, testMap map[string]interface{}) { if sliceMap[0]["testuuid"] != testMap["testuuid"] { t.Fatal("returned testuuid did not match") } if sliceMap[0]["testtimestamp"] != testMap["testtimestamp"] { t.Fatal("returned testtimestamp did not match") } if sliceMap[0]["testvarchar"] != testMap["testvarchar"] { t.Fatal("returned testvarchar did not match") } if sliceMap[0]["testbigint"] != testMap["testbigint"] { t.Fatal("returned testbigint did not match") } if !reflect.DeepEqual(sliceMap[0]["testblob"], testMap["testblob"]) { t.Fatal("returned testblob did not match") } if sliceMap[0]["testbool"] != testMap["testbool"] { t.Fatal("returned testbool did not match") } if sliceMap[0]["testfloat"] != testMap["testfloat"] { t.Fatal("returned testfloat did not match") } if sliceMap[0]["testdouble"] != testMap["testdouble"] { t.Fatal("returned testdouble did not match") } if sliceMap[0]["testinet"] != testMap["testinet"] { t.Fatal("returned testinet did not match") } expectedDecimal := sliceMap[0]["testdecimal"].(*inf.Dec) returnedDecimal := testMap["testdecimal"].(*inf.Dec) if expectedDecimal.Cmp(returnedDecimal) != 0 { t.Fatal("returned testdecimal did not match") } if !reflect.DeepEqual(sliceMap[0]["testlist"], testMap["testlist"]) { t.Fatal("returned testlist did not match") } if !reflect.DeepEqual(sliceMap[0]["testset"], testMap["testset"]) { t.Fatal("returned testset did not match") } if !reflect.DeepEqual(sliceMap[0]["testmap"], testMap["testmap"]) { t.Fatal("returned testmap did not match") } if sliceMap[0]["testint"] != testMap["testint"] { t.Fatal("returned testint did not match") } } func TestSmallInt(t *testing.T) { session := createSession(t) defer session.Close() if session.cfg.ProtoVersion < protoVersion4 { t.Skip("smallint is only supported in cassandra 2.2+") } if err := createTable(session, `CREATE TABLE gocql_test.smallint_table ( testsmallint smallint PRIMARY KEY, )`); err != nil { t.Fatal("create table:", err) } m := make(map[string]interface{}) m["testsmallint"] = int16(2) sliceMap := []map[string]interface{}{m} if err := session.Query(`INSERT INTO smallint_table (testsmallint) VALUES (?)`, m["testsmallint"]).Exec(); err != nil { t.Fatal("insert:", err) } if returned, retErr := session.Query(`SELECT * FROM smallint_table`).Iter().SliceMap(); retErr != nil { t.Fatal("select:", retErr) } else { if sliceMap[0]["testsmallint"] != returned[0]["testsmallint"] { t.Fatal("returned testsmallint did not match") } } } func TestScanWithNilArguments(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, `CREATE TABLE gocql_test.scan_with_nil_arguments ( foo varchar, bar int, PRIMARY KEY (foo, bar) )`); err != nil { t.Fatal("create:", err) } for i := 1; i <= 20; i++ { if err := session.Query("INSERT INTO scan_with_nil_arguments (foo, bar) VALUES (?, ?)", "squares", i*i).Exec(); err != nil { t.Fatal("insert:", err) } } iter := session.Query("SELECT * FROM scan_with_nil_arguments WHERE foo = ?", "squares").Iter() var n int count := 0 for iter.Scan(nil, &n) { count += n } if err := iter.Close(); err != nil { t.Fatal("close:", err) } if count != 2870 { t.Fatalf("expected %d, got %d", 2870, count) } } func TestScanCASWithNilArguments(t *testing.T) { session := createSession(t) defer session.Close() if session.cfg.ProtoVersion == 1 { t.Skip("lightweight transactions not supported. Please use Cassandra >= 2.0") } if err := createTable(session, `CREATE TABLE gocql_test.scan_cas_with_nil_arguments ( foo varchar, bar varchar, PRIMARY KEY (foo, bar) )`); err != nil { t.Fatal("create:", err) } foo := "baz" var cas string if applied, err := session.Query(`INSERT INTO scan_cas_with_nil_arguments (foo, bar) VALUES (?, ?) IF NOT EXISTS`, foo, foo).ScanCAS(nil, nil); err != nil { t.Fatal("insert:", err) } else if !applied { t.Fatal("insert should have been applied") } if applied, err := session.Query(`INSERT INTO scan_cas_with_nil_arguments (foo, bar) VALUES (?, ?) IF NOT EXISTS`, foo, foo).ScanCAS(&cas, nil); err != nil { t.Fatal("insert:", err) } else if applied { t.Fatal("insert should not have been applied") } else if foo != cas { t.Fatalf("expected %v but got %v", foo, cas) } if applied, err := session.Query(`INSERT INTO scan_cas_with_nil_arguments (foo, bar) VALUES (?, ?) IF NOT EXISTS`, foo, foo).ScanCAS(nil, &cas); err != nil { t.Fatal("insert:", err) } else if applied { t.Fatal("insert should not have been applied") } else if foo != cas { t.Fatalf("expected %v but got %v", foo, cas) } } func TestRebindQueryInfo(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, "CREATE TABLE gocql_test.rebind_query (id int, value text, PRIMARY KEY (id))"); err != nil { t.Fatalf("failed to create table with error '%v'", err) } if err := session.Query("INSERT INTO rebind_query (id, value) VALUES (?, ?)", 23, "quux").Exec(); err != nil { t.Fatalf("insert into rebind_query failed, err '%v'", err) } if err := session.Query("INSERT INTO rebind_query (id, value) VALUES (?, ?)", 24, "w00t").Exec(); err != nil { t.Fatalf("insert into rebind_query failed, err '%v'", err) } q := session.Query("SELECT value FROM rebind_query WHERE ID = ?") q.Bind(23) iter := q.Iter() var value string for iter.Scan(&value) { } if value != "quux" { t.Fatalf("expected %v but got %v", "quux", value) } q.Bind(24) iter = q.Iter() for iter.Scan(&value) { } if value != "w00t" { t.Fatalf("expected %v but got %v", "w00t", value) } } //TestStaticQueryInfo makes sure that the application can manually bind query parameters using the simplest possible static binding strategy func TestStaticQueryInfo(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, "CREATE TABLE gocql_test.static_query_info (id int, value text, PRIMARY KEY (id))"); err != nil { t.Fatalf("failed to create table with error '%v'", err) } if err := session.Query("INSERT INTO static_query_info (id, value) VALUES (?, ?)", 113, "foo").Exec(); err != nil { t.Fatalf("insert into static_query_info failed, err '%v'", err) } autobinder := func(q *QueryInfo) ([]interface{}, error) { values := make([]interface{}, 1) values[0] = 113 return values, nil } qry := session.Bind("SELECT id, value FROM static_query_info WHERE id = ?", autobinder) if err := qry.Exec(); err != nil { t.Fatalf("expose query info failed, error '%v'", err) } iter := qry.Iter() var id int var value string iter.Scan(&id, &value) if err := iter.Close(); err != nil { t.Fatalf("query with exposed info failed, err '%v'", err) } if value != "foo" { t.Fatalf("Expected value %s, but got %s", "foo", value) } } type ClusteredKeyValue struct { Id int Cluster int Value string } func (kv *ClusteredKeyValue) Bind(q *QueryInfo) ([]interface{}, error) { values := make([]interface{}, len(q.Args)) for i, info := range q.Args { fieldName := upcaseInitial(info.Name) value := reflect.ValueOf(kv) field := reflect.Indirect(value).FieldByName(fieldName) values[i] = field.Addr().Interface() } return values, nil } func upcaseInitial(str string) string { for i, v := range str { return string(unicode.ToUpper(v)) + str[i+1:] } return "" } //TestBoundQueryInfo makes sure that the application can manually bind query parameters using the query meta data supplied at runtime func TestBoundQueryInfo(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, "CREATE TABLE gocql_test.clustered_query_info (id int, cluster int, value text, PRIMARY KEY (id, cluster))"); err != nil { t.Fatalf("failed to create table with error '%v'", err) } write := &ClusteredKeyValue{Id: 200, Cluster: 300, Value: "baz"} insert := session.Bind("INSERT INTO clustered_query_info (id, cluster, value) VALUES (?, ?,?)", write.Bind) if err := insert.Exec(); err != nil { t.Fatalf("insert into clustered_query_info failed, err '%v'", err) } read := &ClusteredKeyValue{Id: 200, Cluster: 300} qry := session.Bind("SELECT id, cluster, value FROM clustered_query_info WHERE id = ? and cluster = ?", read.Bind) iter := qry.Iter() var id, cluster int var value string iter.Scan(&id, &cluster, &value) if err := iter.Close(); err != nil { t.Fatalf("query with clustered_query_info info failed, err '%v'", err) } if value != "baz" { t.Fatalf("Expected value %s, but got %s", "baz", value) } } //TestBatchQueryInfo makes sure that the application can manually bind query parameters when executing in a batch func TestBatchQueryInfo(t *testing.T) { session := createSession(t) defer session.Close() if session.cfg.ProtoVersion == 1 { t.Skip("atomic batches not supported. Please use Cassandra >= 2.0") } if err := createTable(session, "CREATE TABLE gocql_test.batch_query_info (id int, cluster int, value text, PRIMARY KEY (id, cluster))"); err != nil { t.Fatalf("failed to create table with error '%v'", err) } write := func(q *QueryInfo) ([]interface{}, error) { values := make([]interface{}, 3) values[0] = 4000 values[1] = 5000 values[2] = "bar" return values, nil } batch := session.NewBatch(LoggedBatch) batch.Bind("INSERT INTO batch_query_info (id, cluster, value) VALUES (?, ?,?)", write) if err := session.ExecuteBatch(batch); err != nil { t.Fatalf("batch insert into batch_query_info failed, err '%v'", err) } read := func(q *QueryInfo) ([]interface{}, error) { values := make([]interface{}, 2) values[0] = 4000 values[1] = 5000 return values, nil } qry := session.Bind("SELECT id, cluster, value FROM batch_query_info WHERE id = ? and cluster = ?", read) iter := qry.Iter() var id, cluster int var value string iter.Scan(&id, &cluster, &value) if err := iter.Close(); err != nil { t.Fatalf("query with batch_query_info info failed, err '%v'", err) } if value != "bar" { t.Fatalf("Expected value %s, but got %s", "bar", value) } } func getRandomConn(t *testing.T, session *Session) *Conn { conn := session.getConn() if conn == nil { t.Fatal("unable to get a connection") } return conn } func injectInvalidPreparedStatement(t *testing.T, session *Session, table string) (string, *Conn) { if err := createTable(session, `CREATE TABLE gocql_test.`+table+` ( foo varchar, bar int, PRIMARY KEY (foo, bar) )`); err != nil { t.Fatal("create:", err) } stmt := "INSERT INTO " + table + " (foo, bar) VALUES (?, 7)" conn := getRandomConn(t, session) flight := new(inflightPrepare) key := session.stmtsLRU.keyFor(conn.addr, "", stmt) session.stmtsLRU.add(key, flight) flight.preparedStatment = &preparedStatment{ id: []byte{'f', 'o', 'o', 'b', 'a', 'r'}, request: preparedMetadata{ resultMetadata: resultMetadata{ colCount: 1, actualColCount: 1, columns: []ColumnInfo{ { Keyspace: "gocql_test", Table: table, Name: "foo", TypeInfo: NativeType{ typ: TypeVarchar, }, }, }, }, }, } return stmt, conn } func TestPrepare_MissingSchemaPrepare(t *testing.T) { ctx, cancel := context.WithCancel(context.Background()) defer cancel() s := createSession(t) conn := getRandomConn(t, s) defer s.Close() insertQry := s.Query("INSERT INTO invalidschemaprep (val) VALUES (?)", 5) if err := conn.executeQuery(ctx, insertQry).err; err == nil { t.Fatal("expected error, but got nil.") } if err := createTable(s, "CREATE TABLE gocql_test.invalidschemaprep (val int, PRIMARY KEY (val))"); err != nil { t.Fatal("create table:", err) } if err := conn.executeQuery(ctx, insertQry).err; err != nil { t.Fatal(err) // unconfigured columnfamily } } func TestPrepare_ReprepareStatement(t *testing.T) { ctx, cancel := context.WithCancel(context.Background()) defer cancel() session := createSession(t) defer session.Close() stmt, conn := injectInvalidPreparedStatement(t, session, "test_reprepare_statement") query := session.Query(stmt, "bar") if err := conn.executeQuery(ctx, query).Close(); err != nil { t.Fatalf("Failed to execute query for reprepare statement: %v", err) } } func TestPrepare_ReprepareBatch(t *testing.T) { ctx, cancel := context.WithCancel(context.Background()) defer cancel() session := createSession(t) defer session.Close() if session.cfg.ProtoVersion == 1 { t.Skip("atomic batches not supported. Please use Cassandra >= 2.0") } stmt, conn := injectInvalidPreparedStatement(t, session, "test_reprepare_statement_batch") batch := session.NewBatch(UnloggedBatch) batch.Query(stmt, "bar") if err := conn.executeBatch(ctx, batch).Close(); err != nil { t.Fatalf("Failed to execute query for reprepare statement: %v", err) } } func TestQueryInfo(t *testing.T) { session := createSession(t) defer session.Close() conn := getRandomConn(t, session) info, err := conn.prepareStatement(context.Background(), "SELECT release_version, host_id FROM system.local WHERE key = ?", nil) if err != nil { t.Fatalf("Failed to execute query for preparing statement: %v", err) } if x := len(info.request.columns); x != 1 { t.Fatalf("Was not expecting meta data for %d query arguments, but got %d\n", 1, x) } if session.cfg.ProtoVersion > 1 { if x := len(info.response.columns); x != 2 { t.Fatalf("Was not expecting meta data for %d result columns, but got %d\n", 2, x) } } } //TestPreparedCacheEviction will make sure that the cache size is maintained func TestPrepare_PreparedCacheEviction(t *testing.T) { const maxPrepared = 4 clusterHosts := getClusterHosts() host := clusterHosts[0] cluster := createCluster() cluster.MaxPreparedStmts = maxPrepared cluster.Events.DisableSchemaEvents = true cluster.Hosts = []string{host} cluster.HostFilter = WhiteListHostFilter(host) session := createSessionFromCluster(cluster, t) defer session.Close() if err := createTable(session, "CREATE TABLE gocql_test.prepcachetest (id int,mod int,PRIMARY KEY (id))"); err != nil { t.Fatalf("failed to create table with error '%v'", err) } // clear the cache session.stmtsLRU.clear() //Fill the table for i := 0; i < 2; i++ { if err := session.Query("INSERT INTO prepcachetest (id,mod) VALUES (?, ?)", i, 10000%(i+1)).Exec(); err != nil { t.Fatalf("insert into prepcachetest failed, err '%v'", err) } } //Populate the prepared statement cache with select statements var id, mod int for i := 0; i < 2; i++ { err := session.Query("SELECT id,mod FROM prepcachetest WHERE id = "+strconv.FormatInt(int64(i), 10)).Scan(&id, &mod) if err != nil { t.Fatalf("select from prepcachetest failed, error '%v'", err) } } //generate an update statement to test they are prepared err := session.Query("UPDATE prepcachetest SET mod = ? WHERE id = ?", 1, 11).Exec() if err != nil { t.Fatalf("update prepcachetest failed, error '%v'", err) } //generate a delete statement to test they are prepared err = session.Query("DELETE FROM prepcachetest WHERE id = ?", 1).Exec() if err != nil { t.Fatalf("delete from prepcachetest failed, error '%v'", err) } //generate an insert statement to test they are prepared err = session.Query("INSERT INTO prepcachetest (id,mod) VALUES (?, ?)", 3, 11).Exec() if err != nil { t.Fatalf("insert into prepcachetest failed, error '%v'", err) } session.stmtsLRU.mu.Lock() defer session.stmtsLRU.mu.Unlock() //Make sure the cache size is maintained if session.stmtsLRU.lru.Len() != session.stmtsLRU.lru.MaxEntries { t.Fatalf("expected cache size of %v, got %v", session.stmtsLRU.lru.MaxEntries, session.stmtsLRU.lru.Len()) } // Walk through all the configured hosts and test cache retention and eviction for _, host := range session.cfg.Hosts { _, ok := session.stmtsLRU.lru.Get(session.stmtsLRU.keyFor(host+":9042", session.cfg.Keyspace, "SELECT id,mod FROM prepcachetest WHERE id = 0")) if ok { t.Errorf("expected first select to be purged but was in cache for host=%q", host) } _, ok = session.stmtsLRU.lru.Get(session.stmtsLRU.keyFor(host+":9042", session.cfg.Keyspace, "SELECT id,mod FROM prepcachetest WHERE id = 1")) if !ok { t.Errorf("exepected second select to be in cache for host=%q", host) } _, ok = session.stmtsLRU.lru.Get(session.stmtsLRU.keyFor(host+":9042", session.cfg.Keyspace, "INSERT INTO prepcachetest (id,mod) VALUES (?, ?)")) if !ok { t.Errorf("expected insert to be in cache for host=%q", host) } _, ok = session.stmtsLRU.lru.Get(session.stmtsLRU.keyFor(host+":9042", session.cfg.Keyspace, "UPDATE prepcachetest SET mod = ? WHERE id = ?")) if !ok { t.Errorf("expected update to be in cached for host=%q", host) } _, ok = session.stmtsLRU.lru.Get(session.stmtsLRU.keyFor(host+":9042", session.cfg.Keyspace, "DELETE FROM prepcachetest WHERE id = ?")) if !ok { t.Errorf("expected delete to be cached for host=%q", host) } } } func TestPrepare_PreparedCacheKey(t *testing.T) { session := createSession(t) defer session.Close() // create a second keyspace cluster2 := createCluster() createKeyspace(t, cluster2, "gocql_test2") cluster2.Keyspace = "gocql_test2" session2, err := cluster2.CreateSession() if err != nil { t.Fatal("create session:", err) } defer session2.Close() // both keyspaces have a table named "test_stmt_cache_key" if err := createTable(session, "CREATE TABLE gocql_test.test_stmt_cache_key (id varchar primary key, field varchar)"); err != nil { t.Fatal("create table:", err) } if err := createTable(session2, "CREATE TABLE gocql_test2.test_stmt_cache_key (id varchar primary key, field varchar)"); err != nil { t.Fatal("create table:", err) } // both tables have a single row with the same partition key but different column value if err = session.Query(`INSERT INTO test_stmt_cache_key (id, field) VALUES (?, ?)`, "key", "one").Exec(); err != nil { t.Fatal("insert:", err) } if err = session2.Query(`INSERT INTO test_stmt_cache_key (id, field) VALUES (?, ?)`, "key", "two").Exec(); err != nil { t.Fatal("insert:", err) } // should be able to see different values in each keyspace var value string if err = session.Query("SELECT field FROM test_stmt_cache_key WHERE id = ?", "key").Scan(&value); err != nil { t.Fatal("select:", err) } if value != "one" { t.Errorf("Expected one, got %s", value) } if err = session2.Query("SELECT field FROM test_stmt_cache_key WHERE id = ?", "key").Scan(&value); err != nil { t.Fatal("select:", err) } if value != "two" { t.Errorf("Expected two, got %s", value) } } //TestMarshalFloat64Ptr tests to see that a pointer to a float64 is marshalled correctly. func TestMarshalFloat64Ptr(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, "CREATE TABLE gocql_test.float_test (id double, test double, primary key (id))"); err != nil { t.Fatal("create table:", err) } testNum := float64(7500) if err := session.Query(`INSERT INTO float_test (id,test) VALUES (?,?)`, float64(7500.00), &testNum).Exec(); err != nil { t.Fatal("insert float64:", err) } } //TestMarshalInet tests to see that a pointer to a float64 is marshalled correctly. func TestMarshalInet(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, "CREATE TABLE gocql_test.inet_test (ip inet, name text, primary key (ip))"); err != nil { t.Fatal("create table:", err) } stringIp := "123.34.45.56" if err := session.Query(`INSERT INTO inet_test (ip,name) VALUES (?,?)`, stringIp, "Test IP 1").Exec(); err != nil { t.Fatal("insert string inet:", err) } var stringResult string if err := session.Query("SELECT ip FROM inet_test").Scan(&stringResult); err != nil { t.Fatalf("select for string from inet_test 1 failed: %v", err) } if stringResult != stringIp { t.Errorf("Expected %s, was %s", stringIp, stringResult) } var ipResult net.IP if err := session.Query("SELECT ip FROM inet_test").Scan(&ipResult); err != nil { t.Fatalf("select for net.IP from inet_test 1 failed: %v", err) } if ipResult.String() != stringIp { t.Errorf("Expected %s, was %s", stringIp, ipResult.String()) } if err := session.Query(`DELETE FROM inet_test WHERE ip = ?`, stringIp).Exec(); err != nil { t.Fatal("delete inet table:", err) } netIp := net.ParseIP("222.43.54.65") if err := session.Query(`INSERT INTO inet_test (ip,name) VALUES (?,?)`, netIp, "Test IP 2").Exec(); err != nil { t.Fatal("insert netIp inet:", err) } if err := session.Query("SELECT ip FROM inet_test").Scan(&stringResult); err != nil { t.Fatalf("select for string from inet_test 2 failed: %v", err) } if stringResult != netIp.String() { t.Errorf("Expected %s, was %s", netIp.String(), stringResult) } if err := session.Query("SELECT ip FROM inet_test").Scan(&ipResult); err != nil { t.Fatalf("select for net.IP from inet_test 2 failed: %v", err) } if ipResult.String() != netIp.String() { t.Errorf("Expected %s, was %s", netIp.String(), ipResult.String()) } } func TestVarint(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, "CREATE TABLE gocql_test.varint_test (id varchar, test varint, test2 varint, primary key (id))"); err != nil { t.Fatalf("failed to create table with error '%v'", err) } if err := session.Query(`INSERT INTO varint_test (id, test) VALUES (?, ?)`, "id", 0).Exec(); err != nil { t.Fatalf("insert varint: %v", err) } var result int if err := session.Query("SELECT test FROM varint_test").Scan(&result); err != nil { t.Fatalf("select from varint_test failed: %v", err) } if result != 0 { t.Errorf("Expected 0, was %d", result) } if err := session.Query(`INSERT INTO varint_test (id, test) VALUES (?, ?)`, "id", -1).Exec(); err != nil { t.Fatalf("insert varint: %v", err) } if err := session.Query("SELECT test FROM varint_test").Scan(&result); err != nil { t.Fatalf("select from varint_test failed: %v", err) } if result != -1 { t.Errorf("Expected -1, was %d", result) } if err := session.Query(`INSERT INTO varint_test (id, test) VALUES (?, ?)`, "id", nil).Exec(); err != nil { t.Fatalf("insert varint: %v", err) } if err := session.Query("SELECT test FROM varint_test").Scan(&result); err != nil { t.Fatalf("select from varint_test failed: %v", err) } if result != 0 { t.Errorf("Expected 0, was %d", result) } var nullableResult *int if err := session.Query("SELECT test FROM varint_test").Scan(&nullableResult); err != nil { t.Fatalf("select from varint_test failed: %v", err) } if nullableResult != nil { t.Errorf("Expected nil, was %d", nullableResult) } if err := session.Query(`INSERT INTO varint_test (id, test) VALUES (?, ?)`, "id", int64(math.MaxInt32)+1).Exec(); err != nil { t.Fatalf("insert varint: %v", err) } var result64 int64 if err := session.Query("SELECT test FROM varint_test").Scan(&result64); err != nil { t.Fatalf("select from varint_test failed: %v", err) } if result64 != int64(math.MaxInt32)+1 { t.Errorf("Expected %d, was %d", int64(math.MaxInt32)+1, result64) } biggie := new(big.Int) biggie.SetString("36893488147419103232", 10) // > 2**64 if err := session.Query(`INSERT INTO varint_test (id, test) VALUES (?, ?)`, "id", biggie).Exec(); err != nil { t.Fatalf("insert varint: %v", err) } resultBig := new(big.Int) if err := session.Query("SELECT test FROM varint_test").Scan(resultBig); err != nil { t.Fatalf("select from varint_test failed: %v", err) } if resultBig.String() != biggie.String() { t.Errorf("Expected %s, was %s", biggie.String(), resultBig.String()) } err := session.Query("SELECT test FROM varint_test").Scan(&result64) if err == nil || strings.Index(err.Error(), "out of range") == -1 { t.Errorf("expected out of range error since value is too big for int64") } // value not set in cassandra, leave bind variable empty resultBig = new(big.Int) if err := session.Query("SELECT test2 FROM varint_test").Scan(resultBig); err != nil { t.Fatalf("select from varint_test failed: %v", err) } if resultBig.Int64() != 0 { t.Errorf("Expected %s, was %s", biggie.String(), resultBig.String()) } // can use double pointer to explicitly detect value is not set in cassandra if err := session.Query("SELECT test2 FROM varint_test").Scan(&resultBig); err != nil { t.Fatalf("select from varint_test failed: %v", err) } if resultBig != nil { t.Errorf("Expected %v, was %v", nil, *resultBig) } } //TestQueryStats confirms that the stats are returning valid data. Accuracy may be questionable. func TestQueryStats(t *testing.T) { session := createSession(t) defer session.Close() qry := session.Query("SELECT * FROM system.peers") if err := qry.Exec(); err != nil { t.Fatalf("query failed. %v", err) } else { if qry.Attempts() < 1 { t.Fatal("expected at least 1 attempt, but got 0") } if qry.Latency() <= 0 { t.Fatalf("expected latency to be greater than 0, but got %v instead.", qry.Latency()) } } } // TestIterHosts confirms that host is added to Iter when the query succeeds. func TestIterHost(t *testing.T) { session := createSession(t) defer session.Close() iter := session.Query("SELECT * FROM system.peers").Iter() // check if Host method works if iter.Host() == nil { t.Error("No host in iter") } } //TestBatchStats confirms that the stats are returning valid data. Accuracy may be questionable. func TestBatchStats(t *testing.T) { session := createSession(t) defer session.Close() if session.cfg.ProtoVersion == 1 { t.Skip("atomic batches not supported. Please use Cassandra >= 2.0") } if err := createTable(session, "CREATE TABLE gocql_test.batchStats (id int, PRIMARY KEY (id))"); err != nil { t.Fatalf("failed to create table with error '%v'", err) } b := session.NewBatch(LoggedBatch) b.Query("INSERT INTO batchStats (id) VALUES (?)", 1) b.Query("INSERT INTO batchStats (id) VALUES (?)", 2) if err := session.ExecuteBatch(b); err != nil { t.Fatalf("query failed. %v", err) } else { if b.Attempts() < 1 { t.Fatal("expected at least 1 attempt, but got 0") } if b.Latency() <= 0 { t.Fatalf("expected latency to be greater than 0, but got %v instead.", b.Latency()) } } } type funcBatchObserver func(context.Context, ObservedBatch) func (f funcBatchObserver) ObserveBatch(ctx context.Context, o ObservedBatch) { f(ctx, o) } func TestBatchObserve(t *testing.T) { session := createSession(t) defer session.Close() if session.cfg.ProtoVersion == 1 { t.Skip("atomic batches not supported. Please use Cassandra >= 2.0") } if err := createTable(session, `CREATE TABLE gocql_test.batch_observe_table (id int, other int, PRIMARY KEY (id))`); err != nil { t.Fatal("create table:", err) } type observation struct { observedErr error observedKeyspace string observedStmts []string } var observedBatch *observation batch := session.NewBatch(LoggedBatch) batch.Observer(funcBatchObserver(func(ctx context.Context, o ObservedBatch) { if observedBatch != nil { t.Fatal("batch observe called more than once") } observedBatch = &observation{ observedKeyspace: o.Keyspace, observedStmts: o.Statements, observedErr: o.Err, } })) for i := 0; i < 100; i++ { // hard coding 'i' into one of the values for better testing of observation batch.Query(fmt.Sprintf(`INSERT INTO batch_observe_table (id,other) VALUES (?,%d)`, i), i) } if err := session.ExecuteBatch(batch); err != nil { t.Fatal("execute batch:", err) } if observedBatch == nil { t.Fatal("batch observation has not been called") } if len(observedBatch.observedStmts) != 100 { t.Fatal("expecting 100 observed statements, got", len(observedBatch.observedStmts)) } if observedBatch.observedErr != nil { t.Fatal("not expecting to observe an error", observedBatch.observedErr) } if observedBatch.observedKeyspace != "gocql_test" { t.Fatalf("expecting keyspace 'gocql_test', got %q", observedBatch.observedKeyspace) } for i, stmt := range observedBatch.observedStmts { if stmt != fmt.Sprintf(`INSERT INTO batch_observe_table (id,other) VALUES (?,%d)`, i) { t.Fatal("unexpected query", stmt) } } } //TestNilInQuery tests to see that a nil value passed to a query is handled by Cassandra //TODO validate the nil value by reading back the nil. Need to fix Unmarshalling. func TestNilInQuery(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, "CREATE TABLE gocql_test.testNilInsert (id int, count int, PRIMARY KEY (id))"); err != nil { t.Fatalf("failed to create table with error '%v'", err) } if err := session.Query("INSERT INTO testNilInsert (id,count) VALUES (?,?)", 1, nil).Exec(); err != nil { t.Fatalf("failed to insert with err: %v", err) } var id int if err := session.Query("SELECT id FROM testNilInsert").Scan(&id); err != nil { t.Fatalf("failed to select with err: %v", err) } else if id != 1 { t.Fatalf("expected id to be 1, got %v", id) } } // Don't initialize time.Time bind variable if cassandra timestamp column is empty func TestEmptyTimestamp(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, "CREATE TABLE gocql_test.test_empty_timestamp (id int, time timestamp, num int, PRIMARY KEY (id))"); err != nil { t.Fatalf("failed to create table with error '%v'", err) } if err := session.Query("INSERT INTO test_empty_timestamp (id, num) VALUES (?,?)", 1, 561).Exec(); err != nil { t.Fatalf("failed to insert with err: %v", err) } var timeVal time.Time if err := session.Query("SELECT time FROM test_empty_timestamp where id = ?", 1).Scan(&timeVal); err != nil { t.Fatalf("failed to select with err: %v", err) } if !timeVal.IsZero() { t.Errorf("time.Time bind variable should still be empty (was %s)", timeVal) } } // Integration test of just querying for data from the system.schema_keyspace table where the keyspace DOES exist. func TestGetKeyspaceMetadata(t *testing.T) { session := createSession(t) defer session.Close() keyspaceMetadata, err := getKeyspaceMetadata(session, "gocql_test") if err != nil { t.Fatalf("failed to query the keyspace metadata with err: %v", err) } if keyspaceMetadata == nil { t.Fatal("failed to query the keyspace metadata, nil returned") } if keyspaceMetadata.Name != "gocql_test" { t.Errorf("Expected keyspace name to be 'gocql' but was '%s'", keyspaceMetadata.Name) } if keyspaceMetadata.StrategyClass != "org.apache.cassandra.locator.SimpleStrategy" { t.Errorf("Expected replication strategy class to be 'org.apache.cassandra.locator.SimpleStrategy' but was '%s'", keyspaceMetadata.StrategyClass) } if keyspaceMetadata.StrategyOptions == nil { t.Error("Expected replication strategy options map but was nil") } rfStr, ok := keyspaceMetadata.StrategyOptions["replication_factor"] if !ok { t.Fatalf("Expected strategy option 'replication_factor' but was not found in %v", keyspaceMetadata.StrategyOptions) } rfInt, err := strconv.Atoi(rfStr.(string)) if err != nil { t.Fatalf("Error converting string to int with err: %v", err) } if rfInt != *flagRF { t.Errorf("Expected replication factor to be %d but was %d", *flagRF, rfInt) } } // Integration test of just querying for data from the system.schema_keyspace table where the keyspace DOES NOT exist. func TestGetKeyspaceMetadataFails(t *testing.T) { session := createSession(t) defer session.Close() _, err := getKeyspaceMetadata(session, "gocql_keyspace_does_not_exist") if err != ErrKeyspaceDoesNotExist || err == nil { t.Fatalf("Expected error of type ErrKeySpaceDoesNotExist. Instead, error was %v", err) } } // Integration test of just querying for data from the system.schema_columnfamilies table func TestGetTableMetadata(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, "CREATE TABLE gocql_test.test_table_metadata (first_id int, second_id int, third_id int, PRIMARY KEY (first_id, second_id))"); err != nil { t.Fatalf("failed to create table with error '%v'", err) } tables, err := getTableMetadata(session, "gocql_test") if err != nil { t.Fatalf("failed to query the table metadata with err: %v", err) } if tables == nil { t.Fatal("failed to query the table metadata, nil returned") } var testTable *TableMetadata // verify all tables have minimum expected data for i := range tables { table := &tables[i] if table.Name == "" { t.Errorf("Expected table name to be set, but it was empty: index=%d metadata=%+v", i, table) } if table.Keyspace != "gocql_test" { t.Errorf("Expected keyspace for '%s' table metadata to be 'gocql_test' but was '%s'", table.Name, table.Keyspace) } if session.cfg.ProtoVersion < 4 { // TODO(zariel): there has to be a better way to detect what metadata version // we are in, and a better way to structure the code so that it is abstracted away // from us here if table.KeyValidator == "" { t.Errorf("Expected key validator to be set for table %s", table.Name) } if table.Comparator == "" { t.Errorf("Expected comparator to be set for table %s", table.Name) } if table.DefaultValidator == "" { t.Errorf("Expected default validator to be set for table %s", table.Name) } } // these fields are not set until the metadata is compiled if table.PartitionKey != nil { t.Errorf("Did not expect partition key for table %s", table.Name) } if table.ClusteringColumns != nil { t.Errorf("Did not expect clustering columns for table %s", table.Name) } if table.Columns != nil { t.Errorf("Did not expect columns for table %s", table.Name) } // for the next part of the test after this loop, find the metadata for the test table if table.Name == "test_table_metadata" { testTable = table } } // verify actual values on the test tables if testTable == nil { t.Fatal("Expected table metadata for name 'test_table_metadata'") } if session.cfg.ProtoVersion == protoVersion1 { if testTable.KeyValidator != "org.apache.cassandra.db.marshal.Int32Type" { t.Errorf("Expected test_table_metadata key validator to be 'org.apache.cassandra.db.marshal.Int32Type' but was '%s'", testTable.KeyValidator) } if testTable.Comparator != "org.apache.cassandra.db.marshal.CompositeType(org.apache.cassandra.db.marshal.Int32Type,org.apache.cassandra.db.marshal.UTF8Type)" { t.Errorf("Expected test_table_metadata key validator to be 'org.apache.cassandra.db.marshal.CompositeType(org.apache.cassandra.db.marshal.Int32Type,org.apache.cassandra.db.marshal.UTF8Type)' but was '%s'", testTable.Comparator) } if testTable.DefaultValidator != "org.apache.cassandra.db.marshal.BytesType" { t.Errorf("Expected test_table_metadata key validator to be 'org.apache.cassandra.db.marshal.BytesType' but was '%s'", testTable.DefaultValidator) } expectedKeyAliases := []string{"first_id"} if !reflect.DeepEqual(testTable.KeyAliases, expectedKeyAliases) { t.Errorf("Expected key aliases %v but was %v", expectedKeyAliases, testTable.KeyAliases) } expectedColumnAliases := []string{"second_id"} if !reflect.DeepEqual(testTable.ColumnAliases, expectedColumnAliases) { t.Errorf("Expected key aliases %v but was %v", expectedColumnAliases, testTable.ColumnAliases) } } if testTable.ValueAlias != "" { t.Errorf("Expected value alias '' but was '%s'", testTable.ValueAlias) } } // Integration test of just querying for data from the system.schema_columns table func TestGetColumnMetadata(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, "CREATE TABLE gocql_test.test_column_metadata (first_id int, second_id int, third_id int, PRIMARY KEY (first_id, second_id))"); err != nil { t.Fatalf("failed to create table with error '%v'", err) } if err := session.Query("CREATE INDEX index_column_metadata ON test_column_metadata ( third_id )").Exec(); err != nil { t.Fatalf("failed to create index with err: %v", err) } columns, err := getColumnMetadata(session, "gocql_test") if err != nil { t.Fatalf("failed to query column metadata with err: %v", err) } if columns == nil { t.Fatal("failed to query column metadata, nil returned") } testColumns := map[string]*ColumnMetadata{} // verify actual values on the test columns for i := range columns { column := &columns[i] if column.Name == "" { t.Errorf("Expected column name to be set, but it was empty: index=%d metadata=%+v", i, column) } if column.Table == "" { t.Errorf("Expected column %s table name to be set, but it was empty", column.Name) } if column.Keyspace != "gocql_test" { t.Errorf("Expected column %s keyspace name to be 'gocql_test', but it was '%s'", column.Name, column.Keyspace) } if column.Kind == ColumnUnkownKind { t.Errorf("Expected column %s kind to be set, but it was empty", column.Name) } if session.cfg.ProtoVersion == 1 && column.Kind != ColumnRegular { t.Errorf("Expected column %s kind to be set to 'regular' for proto V1 but it was '%s'", column.Name, column.Kind) } if column.Validator == "" { t.Errorf("Expected column %s validator to be set, but it was empty", column.Name) } // find the test table columns for the next step after this loop if column.Table == "test_column_metadata" { testColumns[column.Name] = column } } if session.cfg.ProtoVersion == 1 { // V1 proto only returns "regular columns" if len(testColumns) != 1 { t.Errorf("Expected 1 test columns but there were %d", len(testColumns)) } thirdID, found := testColumns["third_id"] if !found { t.Fatalf("Expected to find column 'third_id' metadata but there was only %v", testColumns) } if thirdID.Kind != ColumnRegular { t.Errorf("Expected %s column kind to be '%s' but it was '%s'", thirdID.Name, ColumnRegular, thirdID.Kind) } if thirdID.Index.Name != "index_column_metadata" { t.Errorf("Expected %s column index name to be 'index_column_metadata' but it was '%s'", thirdID.Name, thirdID.Index.Name) } } else { if len(testColumns) != 3 { t.Errorf("Expected 3 test columns but there were %d", len(testColumns)) } firstID, found := testColumns["first_id"] if !found { t.Fatalf("Expected to find column 'first_id' metadata but there was only %v", testColumns) } secondID, found := testColumns["second_id"] if !found { t.Fatalf("Expected to find column 'second_id' metadata but there was only %v", testColumns) } thirdID, found := testColumns["third_id"] if !found { t.Fatalf("Expected to find column 'third_id' metadata but there was only %v", testColumns) } if firstID.Kind != ColumnPartitionKey { t.Errorf("Expected %s column kind to be '%s' but it was '%s'", firstID.Name, ColumnPartitionKey, firstID.Kind) } if secondID.Kind != ColumnClusteringKey { t.Errorf("Expected %s column kind to be '%s' but it was '%s'", secondID.Name, ColumnClusteringKey, secondID.Kind) } if thirdID.Kind != ColumnRegular { t.Errorf("Expected %s column kind to be '%s' but it was '%s'", thirdID.Name, ColumnRegular, thirdID.Kind) } if !session.useSystemSchema && thirdID.Index.Name != "index_column_metadata" { // TODO(zariel): update metadata to scan index from system_schema t.Errorf("Expected %s column index name to be 'index_column_metadata' but it was '%s'", thirdID.Name, thirdID.Index.Name) } } } func TestViewMetadata(t *testing.T) { session := createSession(t) defer session.Close() createViews(t, session) views, err := getViewsMetadata(session, "gocql_test") if err != nil { t.Fatalf("failed to query view metadata with err: %v", err) } if views == nil { t.Fatal("failed to query view metadata, nil returned") } if len(views) != 1 { t.Fatal("expected one view") } textType := TypeText if flagCassVersion.Before(3, 0, 0) { textType = TypeVarchar } expectedView := ViewMetadata{ Keyspace: "gocql_test", Name: "basicview", FieldNames: []string{"birthday", "nationality", "weight", "height"}, FieldTypes: []TypeInfo{ NativeType{typ: TypeTimestamp}, NativeType{typ: textType}, NativeType{typ: textType}, NativeType{typ: textType}, }, } if !reflect.DeepEqual(views[0], expectedView) { t.Fatalf("view is %+v, but expected %+v", views[0], expectedView) } } func TestAggregateMetadata(t *testing.T) { session := createSession(t) defer session.Close() createAggregate(t, session) aggregates, err := getAggregatesMetadata(session, "gocql_test") if err != nil { t.Fatalf("failed to query aggregate metadata with err: %v", err) } if aggregates == nil { t.Fatal("failed to query aggregate metadata, nil returned") } if len(aggregates) != 1 { t.Fatal("expected only a single aggregate") } aggregate := aggregates[0] expectedAggregrate := AggregateMetadata{ Keyspace: "gocql_test", Name: "average", ArgumentTypes: []TypeInfo{NativeType{typ: TypeInt}}, InitCond: "(0, 0)", ReturnType: NativeType{typ: TypeDouble}, StateType: TupleTypeInfo{ NativeType: NativeType{typ: TypeTuple}, Elems: []TypeInfo{ NativeType{typ: TypeInt}, NativeType{typ: TypeBigInt}, }, }, stateFunc: "avgstate", finalFunc: "avgfinal", } // In this case cassandra is returning a blob if flagCassVersion.Before(3, 0, 0) { expectedAggregrate.InitCond = string([]byte{0, 0, 0, 4, 0, 0, 0, 0, 0, 0, 0, 8, 0, 0, 0, 0, 0, 0, 0, 0}) } if !reflect.DeepEqual(aggregate, expectedAggregrate) { t.Fatalf("aggregate is %+v, but expected %+v", aggregate, expectedAggregrate) } } func TestFunctionMetadata(t *testing.T) { session := createSession(t) defer session.Close() createFunctions(t, session) functions, err := getFunctionsMetadata(session, "gocql_test") if err != nil { t.Fatalf("failed to query function metadata with err: %v", err) } if functions == nil { t.Fatal("failed to query function metadata, nil returned") } if len(functions) != 2 { t.Fatal("expected two functions") } avgState := functions[1] avgFinal := functions[0] avgStateBody := "if (val !=null) {state.setInt(0, state.getInt(0)+1); state.setLong(1, state.getLong(1)+val.intValue());}return state;" expectedAvgState := FunctionMetadata{ Keyspace: "gocql_test", Name: "avgstate", ArgumentTypes: []TypeInfo{ TupleTypeInfo{ NativeType: NativeType{typ: TypeTuple}, Elems: []TypeInfo{ NativeType{typ: TypeInt}, NativeType{typ: TypeBigInt}, }, }, NativeType{typ: TypeInt}, }, ArgumentNames: []string{"state", "val"}, ReturnType: TupleTypeInfo{ NativeType: NativeType{typ: TypeTuple}, Elems: []TypeInfo{ NativeType{typ: TypeInt}, NativeType{typ: TypeBigInt}, }, }, CalledOnNullInput: true, Language: "java", Body: avgStateBody, } if !reflect.DeepEqual(avgState, expectedAvgState) { t.Fatalf("function is %+v, but expected %+v", avgState, expectedAvgState) } finalStateBody := "double r = 0; if (state.getInt(0) == 0) return null; r = state.getLong(1); r/= state.getInt(0); return Double.valueOf(r);" expectedAvgFinal := FunctionMetadata{ Keyspace: "gocql_test", Name: "avgfinal", ArgumentTypes: []TypeInfo{ TupleTypeInfo{ NativeType: NativeType{typ: TypeTuple}, Elems: []TypeInfo{ NativeType{typ: TypeInt}, NativeType{typ: TypeBigInt}, }, }, }, ArgumentNames: []string{"state"}, ReturnType: NativeType{typ: TypeDouble}, CalledOnNullInput: true, Language: "java", Body: finalStateBody, } if !reflect.DeepEqual(avgFinal, expectedAvgFinal) { t.Fatalf("function is %+v, but expected %+v", avgFinal, expectedAvgFinal) } } // Integration test of querying and composition the keyspace metadata func TestKeyspaceMetadata(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, "CREATE TABLE gocql_test.test_metadata (first_id int, second_id int, third_id int, PRIMARY KEY (first_id, second_id))"); err != nil { t.Fatalf("failed to create table with error '%v'", err) } createAggregate(t, session) createViews(t, session) if err := session.Query("CREATE INDEX index_metadata ON test_metadata ( third_id )").Exec(); err != nil { t.Fatalf("failed to create index with err: %v", err) } keyspaceMetadata, err := session.KeyspaceMetadata("gocql_test") if err != nil { t.Fatalf("failed to query keyspace metadata with err: %v", err) } if keyspaceMetadata == nil { t.Fatal("expected the keyspace metadata to not be nil, but it was nil") } if keyspaceMetadata.Name != session.cfg.Keyspace { t.Fatalf("Expected the keyspace name to be %s but was %s", session.cfg.Keyspace, keyspaceMetadata.Name) } if len(keyspaceMetadata.Tables) == 0 { t.Errorf("Expected tables but there were none") } tableMetadata, found := keyspaceMetadata.Tables["test_metadata"] if !found { t.Fatalf("failed to find the test_metadata table metadata") } if len(tableMetadata.PartitionKey) != 1 { t.Errorf("expected partition key length of 1, but was %d", len(tableMetadata.PartitionKey)) } for i, column := range tableMetadata.PartitionKey { if column == nil { t.Errorf("partition key column metadata at index %d was nil", i) } } if tableMetadata.PartitionKey[0].Name != "first_id" { t.Errorf("Expected the first partition key column to be 'first_id' but was '%s'", tableMetadata.PartitionKey[0].Name) } if len(tableMetadata.ClusteringColumns) != 1 { t.Fatalf("expected clustering columns length of 1, but was %d", len(tableMetadata.ClusteringColumns)) } for i, column := range tableMetadata.ClusteringColumns { if column == nil { t.Fatalf("clustering column metadata at index %d was nil", i) } } if tableMetadata.ClusteringColumns[0].Name != "second_id" { t.Errorf("Expected the first clustering column to be 'second_id' but was '%s'", tableMetadata.ClusteringColumns[0].Name) } thirdColumn, found := tableMetadata.Columns["third_id"] if !found { t.Fatalf("Expected a column definition for 'third_id'") } if !session.useSystemSchema && thirdColumn.Index.Name != "index_metadata" { // TODO(zariel): scan index info from system_schema t.Errorf("Expected column index named 'index_metadata' but was '%s'", thirdColumn.Index.Name) } aggregate, found := keyspaceMetadata.Aggregates["average"] if !found { t.Fatal("failed to find the aggreate in metadata") } if aggregate.FinalFunc.Name != "avgfinal" { t.Fatalf("expected final function %s, but got %s", "avgFinal", aggregate.FinalFunc.Name) } if aggregate.StateFunc.Name != "avgstate" { t.Fatalf("expected state function %s, but got %s", "avgstate", aggregate.StateFunc.Name) } _, found = keyspaceMetadata.Views["basicview"] if !found { t.Fatal("failed to find the view in metadata") } } // Integration test of the routing key calculation func TestRoutingKey(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, "CREATE TABLE gocql_test.test_single_routing_key (first_id int, second_id int, PRIMARY KEY (first_id, second_id))"); err != nil { t.Fatalf("failed to create table with error '%v'", err) } if err := createTable(session, "CREATE TABLE gocql_test.test_composite_routing_key (first_id int, second_id int, PRIMARY KEY ((first_id, second_id)))"); err != nil { t.Fatalf("failed to create table with error '%v'", err) } routingKeyInfo, err := session.routingKeyInfo(context.Background(), "SELECT * FROM test_single_routing_key WHERE second_id=? AND first_id=?") if err != nil { t.Fatalf("failed to get routing key info due to error: %v", err) } if routingKeyInfo == nil { t.Fatal("Expected routing key info, but was nil") } if len(routingKeyInfo.indexes) != 1 { t.Fatalf("Expected routing key indexes length to be 1 but was %d", len(routingKeyInfo.indexes)) } if routingKeyInfo.indexes[0] != 1 { t.Errorf("Expected routing key index[0] to be 1 but was %d", routingKeyInfo.indexes[0]) } if len(routingKeyInfo.types) != 1 { t.Fatalf("Expected routing key types length to be 1 but was %d", len(routingKeyInfo.types)) } if routingKeyInfo.types[0] == nil { t.Fatal("Expected routing key types[0] to be non-nil") } if routingKeyInfo.types[0].Type() != TypeInt { t.Fatalf("Expected routing key types[0].Type to be %v but was %v", TypeInt, routingKeyInfo.types[0].Type()) } // verify the cache is working routingKeyInfo, err = session.routingKeyInfo(context.Background(), "SELECT * FROM test_single_routing_key WHERE second_id=? AND first_id=?") if err != nil { t.Fatalf("failed to get routing key info due to error: %v", err) } if len(routingKeyInfo.indexes) != 1 { t.Fatalf("Expected routing key indexes length to be 1 but was %d", len(routingKeyInfo.indexes)) } if routingKeyInfo.indexes[0] != 1 { t.Errorf("Expected routing key index[0] to be 1 but was %d", routingKeyInfo.indexes[0]) } if len(routingKeyInfo.types) != 1 { t.Fatalf("Expected routing key types length to be 1 but was %d", len(routingKeyInfo.types)) } if routingKeyInfo.types[0] == nil { t.Fatal("Expected routing key types[0] to be non-nil") } if routingKeyInfo.types[0].Type() != TypeInt { t.Fatalf("Expected routing key types[0] to be %v but was %v", TypeInt, routingKeyInfo.types[0].Type()) } cacheSize := session.routingKeyInfoCache.lru.Len() if cacheSize != 1 { t.Errorf("Expected cache size to be 1 but was %d", cacheSize) } query := session.Query("SELECT * FROM test_single_routing_key WHERE second_id=? AND first_id=?", 1, 2) routingKey, err := query.GetRoutingKey() if err != nil { t.Fatalf("Failed to get routing key due to error: %v", err) } expectedRoutingKey := []byte{0, 0, 0, 2} if !reflect.DeepEqual(expectedRoutingKey, routingKey) { t.Errorf("Expected routing key %v but was %v", expectedRoutingKey, routingKey) } routingKeyInfo, err = session.routingKeyInfo(context.Background(), "SELECT * FROM test_composite_routing_key WHERE second_id=? AND first_id=?") if err != nil { t.Fatalf("failed to get routing key info due to error: %v", err) } if routingKeyInfo == nil { t.Fatal("Expected routing key info, but was nil") } if len(routingKeyInfo.indexes) != 2 { t.Fatalf("Expected routing key indexes length to be 2 but was %d", len(routingKeyInfo.indexes)) } if routingKeyInfo.indexes[0] != 1 { t.Errorf("Expected routing key index[0] to be 1 but was %d", routingKeyInfo.indexes[0]) } if routingKeyInfo.indexes[1] != 0 { t.Errorf("Expected routing key index[1] to be 0 but was %d", routingKeyInfo.indexes[1]) } if len(routingKeyInfo.types) != 2 { t.Fatalf("Expected routing key types length to be 1 but was %d", len(routingKeyInfo.types)) } if routingKeyInfo.types[0] == nil { t.Fatal("Expected routing key types[0] to be non-nil") } if routingKeyInfo.types[0].Type() != TypeInt { t.Fatalf("Expected routing key types[0] to be %v but was %v", TypeInt, routingKeyInfo.types[0].Type()) } if routingKeyInfo.types[1] == nil { t.Fatal("Expected routing key types[1] to be non-nil") } if routingKeyInfo.types[1].Type() != TypeInt { t.Fatalf("Expected routing key types[0] to be %v but was %v", TypeInt, routingKeyInfo.types[1].Type()) } query = session.Query("SELECT * FROM test_composite_routing_key WHERE second_id=? AND first_id=?", 1, 2) routingKey, err = query.GetRoutingKey() if err != nil { t.Fatalf("Failed to get routing key due to error: %v", err) } expectedRoutingKey = []byte{0, 4, 0, 0, 0, 2, 0, 0, 4, 0, 0, 0, 1, 0} if !reflect.DeepEqual(expectedRoutingKey, routingKey) { t.Errorf("Expected routing key %v but was %v", expectedRoutingKey, routingKey) } // verify the cache is working cacheSize = session.routingKeyInfoCache.lru.Len() if cacheSize != 2 { t.Errorf("Expected cache size to be 2 but was %d", cacheSize) } } // Integration test of the token-aware policy-based connection pool func TestTokenAwareConnPool(t *testing.T) { cluster := createCluster() cluster.PoolConfig.HostSelectionPolicy = TokenAwareHostPolicy(RoundRobinHostPolicy()) // force metadata query to page cluster.PageSize = 1 session := createSessionFromCluster(cluster, t) defer session.Close() expectedPoolSize := cluster.NumConns * len(session.ring.allHosts()) // wait for pool to fill for i := 0; i < 10; i++ { if session.pool.Size() == expectedPoolSize { break } time.Sleep(100 * time.Millisecond) } if expectedPoolSize != session.pool.Size() { t.Errorf("Expected pool size %d but was %d", expectedPoolSize, session.pool.Size()) } // add another cf so there are two pages when fetching table metadata from our keyspace if err := createTable(session, "CREATE TABLE gocql_test.test_token_aware_other_cf (id int, data text, PRIMARY KEY (id))"); err != nil { t.Fatalf("failed to create test_token_aware table with err: %v", err) } if err := createTable(session, "CREATE TABLE gocql_test.test_token_aware (id int, data text, PRIMARY KEY (id))"); err != nil { t.Fatalf("failed to create test_token_aware table with err: %v", err) } query := session.Query("INSERT INTO test_token_aware (id, data) VALUES (?,?)", 42, "8 * 6 =") if err := query.Exec(); err != nil { t.Fatalf("failed to insert with err: %v", err) } query = session.Query("SELECT data FROM test_token_aware where id = ?", 42).Consistency(One) var data string if err := query.Scan(&data); err != nil { t.Error(err) } // TODO add verification that the query went to the correct host } func TestNegativeStream(t *testing.T) { session := createSession(t) defer session.Close() conn := getRandomConn(t, session) const stream = -50 writer := frameWriterFunc(func(f *framer, streamID int) error { f.writeHeader(0, opOptions, stream) return f.finishWrite() }) frame, err := conn.exec(context.Background(), writer, nil) if err == nil { t.Fatalf("expected to get an error on stream %d", stream) } else if frame != nil { t.Fatalf("expected to get nil frame got %+v", frame) } } func TestManualQueryPaging(t *testing.T) { const rowsToInsert = 5 session := createSession(t) defer session.Close() if err := createTable(session, "CREATE TABLE gocql_test.testManualPaging (id int, count int, PRIMARY KEY (id))"); err != nil { t.Fatal(err) } for i := 0; i < rowsToInsert; i++ { err := session.Query("INSERT INTO testManualPaging(id, count) VALUES(?, ?)", i, i*i).Exec() if err != nil { t.Fatal(err) } } // disable auto paging, 1 page per iteration query := session.Query("SELECT id, count FROM testManualPaging").PageState(nil).PageSize(2) var id, count, fetched int iter := query.Iter() // NOTE: this isnt very indicative of how it should be used, the idea is that // the page state is returned to some client who will send it back to manually // page through the results. for { for iter.Scan(&id, &count) { if count != (id * id) { t.Fatalf("got wrong value from iteration: got %d expected %d", count, id*id) } fetched++ } if len(iter.PageState()) > 0 { // more pages iter = query.PageState(iter.PageState()).Iter() } else { break } } if err := iter.Close(); err != nil { t.Fatal(err) } if fetched != rowsToInsert { t.Fatalf("expected to fetch %d rows got %d", rowsToInsert, fetched) } } func TestLexicalUUIDType(t *testing.T) { session := createSession(t) defer session.Close() if err := createTable(session, `CREATE TABLE gocql_test.test_lexical_uuid ( key varchar, column1 'org.apache.cassandra.db.marshal.LexicalUUIDType', value int, PRIMARY KEY (key, column1) )`); err != nil { t.Fatal("create:", err) } key := TimeUUID().String() column1 := TimeUUID() err := session.Query("INSERT INTO test_lexical_uuid(key, column1, value) VALUES(?, ?, ?)", key, column1, 55).Exec() if err != nil { t.Fatal(err) } var gotUUID UUID if err := session.Query("SELECT column1 from test_lexical_uuid where key = ? AND column1 = ?", key, column1).Scan(&gotUUID); err != nil { t.Fatal(err) } if gotUUID != column1 { t.Errorf("got %s, expected %s", gotUUID, column1) } } // Issue 475 func TestSessionBindRoutingKey(t *testing.T) { cluster := createCluster() cluster.PoolConfig.HostSelectionPolicy = TokenAwareHostPolicy(RoundRobinHostPolicy()) session := createSessionFromCluster(cluster, t) defer session.Close() if err := createTable(session, `CREATE TABLE gocql_test.test_bind_routing_key ( key varchar, value int, PRIMARY KEY (key) )`); err != nil { t.Fatal(err) } const ( key = "routing-key" value = 5 ) fn := func(info *QueryInfo) ([]interface{}, error) { return []interface{}{key, value}, nil } q := session.Bind("INSERT INTO test_bind_routing_key(key, value) VALUES(?, ?)", fn) if err := q.Exec(); err != nil { t.Fatal(err) } } func TestJSONSupport(t *testing.T) { session := createSession(t) defer session.Close() if session.cfg.ProtoVersion < 4 { t.Skip("skipping JSON support on proto < 4") } if err := createTable(session, `CREATE TABLE gocql_test.test_json ( id text PRIMARY KEY, age int, state text )`); err != nil { t.Fatal(err) } err := session.Query("INSERT INTO test_json JSON ?", `{"id": "user123", "age": 42, "state": "TX"}`).Exec() if err != nil { t.Fatal(err) } var ( id string age int state string ) err = session.Query("SELECT id, age, state FROM test_json WHERE id = ?", "user123").Scan(&id, &age, &state) if err != nil { t.Fatal(err) } if id != "user123" { t.Errorf("got id %q expected %q", id, "user123") } if age != 42 { t.Errorf("got age %d expected %d", age, 42) } if state != "TX" { t.Errorf("got state %q expected %q", state, "TX") } } func TestDiscoverViaProxy(t *testing.T) { // This (complicated) test tests that when the driver is given an initial host // that is infact a proxy it discovers the rest of the ring behind the proxy // and does not store the proxies address as a host in its connection pool. // See https://github.com/gocql/gocql/issues/481 clusterHosts := getClusterHosts() proxy, err := net.Listen("tcp", "localhost:0") if err != nil { t.Fatalf("unable to create proxy listener: %v", err) } ctx, cancel := context.WithCancel(context.Background()) defer cancel() var ( mu sync.Mutex proxyConns []net.Conn closed bool ) go func() { cassandraAddr := JoinHostPort(clusterHosts[0], 9042) cassandra := func() (net.Conn, error) { return net.Dial("tcp", cassandraAddr) } proxyFn := func(errs chan error, from, to net.Conn) { _, err := io.Copy(to, from) if err != nil { errs <- err } } // handle dials cassandra and then proxies requests and reponsess. It waits // for both the read and write side of the TCP connection to close before // returning. handle := func(conn net.Conn) error { cass, err := cassandra() if err != nil { return err } defer cass.Close() errs := make(chan error, 2) go proxyFn(errs, conn, cass) go proxyFn(errs, cass, conn) select { case <-ctx.Done(): return ctx.Err() case err := <-errs: return err } } for { // proxy just accepts connections and then proxies them to cassandra, // it runs until it is closed. conn, err := proxy.Accept() if err != nil { mu.Lock() if !closed { t.Error(err) } mu.Unlock() return } mu.Lock() proxyConns = append(proxyConns, conn) mu.Unlock() go func(conn net.Conn) { defer conn.Close() if err := handle(conn); err != nil { mu.Lock() if !closed { t.Error(err) } mu.Unlock() } }(conn) } }() proxyAddr := proxy.Addr().String() cluster := createCluster() cluster.NumConns = 1 // initial host is the proxy address cluster.Hosts = []string{proxyAddr} session := createSessionFromCluster(cluster, t) defer session.Close() // we shouldnt need this but to be safe time.Sleep(1 * time.Second) session.pool.mu.RLock() for _, host := range clusterHosts { if _, ok := session.pool.hostConnPools[host]; !ok { t.Errorf("missing host in pool after discovery: %q", host) } } session.pool.mu.RUnlock() mu.Lock() closed = true if err := proxy.Close(); err != nil { t.Log(err) } for _, conn := range proxyConns { if err := conn.Close(); err != nil { t.Log(err) } } mu.Unlock() } func TestUnmarshallNestedTypes(t *testing.T) { session := createSession(t) defer session.Close() if session.cfg.ProtoVersion < protoVersion3 { t.Skip("can not have frozen types in cassandra < 2.1.3") } if err := createTable(session, `CREATE TABLE gocql_test.test_557 ( id text PRIMARY KEY, val list > > )`); err != nil { t.Fatal(err) } m := []map[string]string{ {"key1": "val1"}, {"key2": "val2"}, } const id = "key" err := session.Query("INSERT INTO test_557(id, val) VALUES(?, ?)", id, m).Exec() if err != nil { t.Fatal(err) } var data []map[string]string if err := session.Query("SELECT val FROM test_557 WHERE id = ?", id).Scan(&data); err != nil { t.Fatal(err) } if !reflect.DeepEqual(data, m) { t.Fatalf("%+#v != %+#v", data, m) } } func TestSchemaReset(t *testing.T) { if flagCassVersion.Major == 0 || flagCassVersion.Before(2, 1, 3) { t.Skipf("skipping TestSchemaReset due to CASSANDRA-7910 in Cassandra <2.1.3 version=%v", flagCassVersion) } cluster := createCluster() cluster.NumConns = 1 session := createSessionFromCluster(cluster, t) defer session.Close() if err := createTable(session, `CREATE TABLE gocql_test.test_schema_reset ( id text PRIMARY KEY)`); err != nil { t.Fatal(err) } const key = "test" err := session.Query("INSERT INTO test_schema_reset(id) VALUES(?)", key).Exec() if err != nil { t.Fatal(err) } var id string err = session.Query("SELECT * FROM test_schema_reset WHERE id=?", key).Scan(&id) if err != nil { t.Fatal(err) } else if id != key { t.Fatalf("expected to get id=%q got=%q", key, id) } if err := createTable(session, `ALTER TABLE gocql_test.test_schema_reset ADD val text`); err != nil { t.Fatal(err) } const expVal = "test-val" err = session.Query("INSERT INTO test_schema_reset(id, val) VALUES(?, ?)", key, expVal).Exec() if err != nil { t.Fatal(err) } var val string err = session.Query("SELECT * FROM test_schema_reset WHERE id=?", key).Scan(&id, &val) if err != nil { t.Fatal(err) } if id != key { t.Errorf("expected to get id=%q got=%q", key, id) } if val != expVal { t.Errorf("expected to get val=%q got=%q", expVal, val) } } func TestCreateSession_DontSwallowError(t *testing.T) { t.Skip("This test is bad, and the resultant error from cassandra changes between versions") cluster := createCluster() cluster.ProtoVersion = 0x100 session, err := cluster.CreateSession() if err == nil { session.Close() t.Fatal("expected to get an error for unsupported protocol") } if flagCassVersion.Major < 3 { // TODO: we should get a distinct error type here which include the underlying // cassandra error about the protocol version, for now check this here. if !strings.Contains(err.Error(), "Invalid or unsupported protocol version") { t.Fatalf(`expcted to get error "unsupported protocol version" got: %q`, err) } } else { if !strings.Contains(err.Error(), "unsupported response version") { t.Fatalf(`expcted to get error "unsupported response version" got: %q`, err) } } } func TestControl_DiscoverProtocol(t *testing.T) { cluster := createCluster() cluster.ProtoVersion = 0 session, err := cluster.CreateSession() if err != nil { t.Fatal(err) } defer session.Close() if session.cfg.ProtoVersion == 0 { t.Fatal("did not discovery protocol") } } // TestUnsetCol verify unset column will not replace an existing column func TestUnsetCol(t *testing.T) { session := createSession(t) defer session.Close() if session.cfg.ProtoVersion < 4 { t.Skip("Unset Values are not supported in protocol < 4") } if err := createTable(session, "CREATE TABLE gocql_test.testUnsetInsert (id int, my_int int, my_text text, PRIMARY KEY (id))"); err != nil { t.Fatalf("failed to create table with error '%v'", err) } if err := session.Query("INSERT INTO testUnSetInsert (id,my_int,my_text) VALUES (?,?,?)", 1, 2, "3").Exec(); err != nil { t.Fatalf("failed to insert with err: %v", err) } if err := session.Query("INSERT INTO testUnSetInsert (id,my_int,my_text) VALUES (?,?,?)", 1, UnsetValue, UnsetValue).Exec(); err != nil { t.Fatalf("failed to insert with err: %v", err) } var id, mInt int var mText string if err := session.Query("SELECT id, my_int ,my_text FROM testUnsetInsert").Scan(&id, &mInt, &mText); err != nil { t.Fatalf("failed to select with err: %v", err) } else if id != 1 || mInt != 2 || mText != "3" { t.Fatalf("Expected results: 1, 2, \"3\", got %v, %v, %v", id, mInt, mText) } } // TestUnsetColBatch verify unset column will not replace a column in batch func TestUnsetColBatch(t *testing.T) { session := createSession(t) defer session.Close() if session.cfg.ProtoVersion < 4 { t.Skip("Unset Values are not supported in protocol < 4") } if err := createTable(session, "CREATE TABLE gocql_test.batchUnsetInsert (id int, my_int int, my_text text, PRIMARY KEY (id))"); err != nil { t.Fatalf("failed to create table with error '%v'", err) } b := session.NewBatch(LoggedBatch) b.Query("INSERT INTO gocql_test.batchUnsetInsert(id, my_int, my_text) VALUES (?,?,?)", 1, 1, UnsetValue) b.Query("INSERT INTO gocql_test.batchUnsetInsert(id, my_int, my_text) VALUES (?,?,?)", 1, UnsetValue, "") b.Query("INSERT INTO gocql_test.batchUnsetInsert(id, my_int, my_text) VALUES (?,?,?)", 2, 2, UnsetValue) if err := session.ExecuteBatch(b); err != nil { t.Fatalf("query failed. %v", err) } else { if b.Attempts() < 1 { t.Fatal("expected at least 1 attempt, but got 0") } if b.Latency() <= 0 { t.Fatalf("expected latency to be greater than 0, but got %v instead.", b.Latency()) } } var id, mInt, count int var mText string if err := session.Query("SELECT count(*) FROM gocql_test.batchUnsetInsert;").Scan(&count); err != nil { t.Fatalf("Failed to select with err: %v", err) } else if count != 2 { t.Fatalf("Expected Batch Insert count 2, got %v", count) } if err := session.Query("SELECT id, my_int ,my_text FROM gocql_test.batchUnsetInsert where id=1;").Scan(&id, &mInt, &mText); err != nil { t.Fatalf("failed to select with err: %v", err) } else if id != mInt { t.Fatalf("expected id, my_int to be 1, got %v and %v", id, mInt) } } func TestQuery_NamedValues(t *testing.T) { session := createSession(t) defer session.Close() if session.cfg.ProtoVersion < 3 { t.Skip("named Values are not supported in protocol < 3") } if err := createTable(session, "CREATE TABLE gocql_test.named_query(id int, value text, PRIMARY KEY (id))"); err != nil { t.Fatal(err) } err := session.Query("INSERT INTO gocql_test.named_query(id, value) VALUES(:id, :value)", NamedValue("id", 1), NamedValue("value", "i am a value")).Exec() if err != nil { t.Fatal(err) } var value string if err := session.Query("SELECT VALUE from gocql_test.named_query WHERE id = :id", NamedValue("id", 1)).Scan(&value); err != nil { t.Fatal(err) } }