package store import ( "bytes" "errors" "expvar" "fmt" "net" "os" "path/filepath" "sort" "testing" "time" "github.com/rqlite/rqlite/command" "github.com/rqlite/rqlite/command/encoding" "github.com/rqlite/rqlite/db" "github.com/rqlite/rqlite/random" "github.com/rqlite/rqlite/testdata/chinook" ) // Test_StoreSingleNode tests that a single node basically operates. func Test_OpenStoreSingleNode(t *testing.T) { s, ln := mustNewStore(t) defer s.Close(true) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } _, err := s.WaitForLeader(10 * time.Second) if err != nil { t.Fatalf("Error waiting for leader: %s", err) } _, err = s.LeaderAddr() if err != nil { t.Fatalf("failed to get leader address: %s", err.Error()) } id, err := waitForLeaderID(s, 10*time.Second) if err != nil { t.Fatalf("failed to retrieve leader ID: %s", err.Error()) } if got, exp := id, s.raftID; got != exp { t.Fatalf("wrong leader ID returned, got: %s, exp %s", got, exp) } } // Test_SingleNodeSQLitePath ensures that basic functionality works when the SQLite database path // is explicitly specificed. func Test_SingleNodeOnDiskSQLitePath(t *testing.T) { s, ln, path := mustNewStoreSQLitePath(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s.Close(true) if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } er := executeRequestFromStrings([]string{ `CREATE TABLE foo (id INTEGER NOT NULL PRIMARY KEY, name TEXT)`, `INSERT INTO foo(id, name) VALUES(1, "fiona")`, }, false, false) _, err := s.Execute(er) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } qr := queryRequestFromString("SELECT * FROM foo", false, false) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_NONE r, err := s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } // Confirm SQLite file was actually created at supplied path. if !pathExists(path) { t.Fatalf("SQLite file does not exist at %s", path) } } // Test_SingleNodeBackupBinary tests that requesting a binary-formatted // backup works as expected. func Test_SingleNodeBackupBinary(t *testing.T) { t.Parallel() s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s.Close(true) if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } dump := `PRAGMA foreign_keys=OFF; BEGIN TRANSACTION; CREATE TABLE foo (id integer not null primary key, name text); INSERT INTO "foo" VALUES(1,'fiona'); COMMIT; ` _, err := s.Execute(executeRequestFromString(dump, false, false)) if err != nil { t.Fatalf("failed to load simple dump: %s", err.Error()) } f, err := os.CreateTemp("", "rqlite-baktest-") if err != nil { t.Fatalf("Backup Failed: unable to create temp file, %s", err.Error()) } defer os.Remove(f.Name()) if err := s.Backup(backupRequestBinary(true), f); err != nil { t.Fatalf("Backup failed %s", err.Error()) } // Open the backup file using the DB layer and check the data. db, err := db.Open(f.Name(), false, false) if err != nil { t.Fatalf("unable to open backup database, %s", err.Error()) } defer db.Close() var buf bytes.Buffer w := &buf if err := db.Dump(w); err != nil { t.Fatalf("unable to dump backup database, %s", err.Error()) } if buf.String() != dump { t.Fatalf("backup dump is not as expected, got %s", buf.String()) } } // Test_SingleNodeProvide tests that the Store correctly implements // the Provide method. func Test_SingleNodeProvide(t *testing.T) { s0, ln := mustNewStore(t) defer ln.Close() if err := s0.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s0.Bootstrap(NewServer(s0.ID(), s0.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s0.Close(true) if _, err := s0.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } er := executeRequestFromStrings([]string{ `CREATE TABLE foo (id INTEGER NOT NULL PRIMARY KEY, name TEXT)`, `INSERT INTO foo(id, name) VALUES(1, "fiona")`, }, false, false) _, err := s0.Execute(er) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } qr := queryRequestFromString("SELECT * FROM foo", false, false) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_NONE r, err := s0.Query(qr) if err != nil { t.Fatalf("failed to query leader node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } tempFile := mustCreateTempFile() defer os.Remove(tempFile) err = s0.Provide(tempFile) if err != nil { t.Fatalf("store failed to provide: %s", err.Error()) } // Load the provided data into a new store and check it. s1, ln := mustNewStore(t) defer ln.Close() if err := s1.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s1.Bootstrap(NewServer(s1.ID(), s1.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s1.Close(true) if _, err := s1.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } err = s1.Load(loadRequestFromFile(tempFile)) if err != nil { t.Fatalf("failed to load provided SQLite data: %s", err.Error()) } qr = queryRequestFromString("SELECT * FROM foo", false, false) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_STRONG r, err = s1.Query(qr) if err != nil { t.Fatalf("failed to query leader node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } // Test_SingleNodeProvideNoData checks the Provide method operates // correctly when there is no data to provide. func Test_SingleNodeProvideNoData(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s.Close(true) if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } tmpFile := mustCreateTempFile() defer os.Remove(tmpFile) err := s.Provide(tmpFile) if err != nil { t.Fatalf("store failed to provide: %s", err.Error()) } } // Test_SingleNodeSnapshot tests that the Store correctly takes a snapshot // and recovers from it. func Test_SingleNodeSnapshot(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s.Close(true) if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } queries := []string{ `CREATE TABLE foo (id INTEGER NOT NULL PRIMARY KEY, name TEXT)`, `INSERT INTO foo(id, name) VALUES(1, "fiona")`, } _, err := s.Execute(executeRequestFromStrings(queries, false, false)) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } _, err = s.Query(queryRequestFromString("SELECT * FROM foo", false, false)) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } // Snap the node and write to disk. f, err := s.Snapshot() if err != nil { t.Fatalf("failed to snapshot node: %s", err.Error()) } snapDir := t.TempDir() snapFile, err := os.Create(filepath.Join(snapDir, "snapshot")) if err != nil { t.Fatalf("failed to create snapshot file: %s", err.Error()) } defer snapFile.Close() sink := &mockSnapshotSink{snapFile} if err := f.Persist(sink); err != nil { t.Fatalf("failed to persist snapshot to disk: %s", err.Error()) } // Check restoration. snapFile, err = os.Open(filepath.Join(snapDir, "snapshot")) if err != nil { t.Fatalf("failed to open snapshot file: %s", err.Error()) } defer snapFile.Close() if err := s.Restore(snapFile); err != nil { t.Fatalf("failed to restore snapshot from disk: %s", err.Error()) } // Ensure database is back in the correct state. r, err := s.Query(queryRequestFromString("SELECT * FROM foo", false, false)) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } // Test_StoreSingleNodeNotOpen tests that various methods called on a // closed Store return ErrNotOpen. func Test_StoreSingleNodeNotOpen(t *testing.T) { s, ln := mustNewStore(t) defer s.Close(true) defer ln.Close() a, err := s.LeaderAddr() if err != nil { t.Fatalf("failed to get leader address: %s", err.Error()) } if a != "" { t.Fatalf("non-empty Leader return for non-open store: %s", a) } _, err = s.WaitForLeader(1 * time.Second) if err != ErrWaitForLeaderTimeout { t.Fatalf("wrong wait-for-leader error received for non-open store: %s", err) } if _, err := s.Stats(); err != nil { t.Fatalf("stats fetch returned error for non-open store: %s", err) } // Check key methods handle being called when Store is not open. if err := s.Join(joinRequest("id", "localhost", true)); err != ErrNotOpen { t.Fatalf("wrong error received for non-open store: %s", err) } if err := s.Notify(notifyRequest("id", "localhost")); err != ErrNotOpen { t.Fatalf("wrong error received for non-open store: %s", err) } if err := s.Remove(nil); err != ErrNotOpen { t.Fatalf("wrong error received for non-open store: %s", err) } if _, err := s.Nodes(); err != ErrNotOpen { t.Fatalf("wrong error received for non-open store: %s", err) } if err := s.Backup(nil, nil); err != ErrNotOpen { t.Fatalf("wrong error received for non-open store: %s", err) } if _, err := s.Execute(nil); err != ErrNotOpen { t.Fatalf("wrong error received for non-open store: %s", err) } if _, err := s.Query(nil); err != ErrNotOpen { t.Fatalf("wrong error received for non-open store: %s", err) } if err := s.Load(nil); err != ErrNotOpen { t.Fatalf("wrong error received for non-open store: %s", err) } } // Test_OpenStoreCloseSingleNode tests a single node store can be // opened, closed, and then reopened. func Test_OpenStoreCloseSingleNode(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if !s.open { t.Fatalf("store not marked as open") } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } er := executeRequestFromStrings([]string{ `CREATE TABLE foo (id INTEGER NOT NULL PRIMARY KEY, name TEXT)`, `INSERT INTO foo(id, name) VALUES(1, "fiona")`, }, false, false) _, err := s.Execute(er) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } fsmIdx, err := s.WaitForAppliedFSM(5 * time.Second) if err != nil { t.Fatalf("failed to wait for fsmIndex: %s", err.Error()) } if err := s.Close(true); err != nil { t.Fatalf("failed to close single-node store: %s", err.Error()) } if s.open { t.Fatalf("store still marked as open") } // Reopen it and confirm data still there. if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } // Wait until the log entries have been applied to the voting follower, // and then query. if _, err := s.WaitForFSMIndex(fsmIdx, 5*time.Second); err != nil { t.Fatalf("error waiting for follower to apply index: %s:", err.Error()) } qr := queryRequestFromString("SELECT * FROM foo", false, false) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_NONE r, err := s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if err := s.Close(true); err != nil { t.Fatalf("failed to close single-node store: %s", err.Error()) } } // Test_StoreLeaderObservation tests observing leader changes works. func Test_StoreLeaderObservation(t *testing.T) { s, ln := mustNewStore(t) defer s.Close(true) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } ch1 := make(chan struct{}) ch2 := make(chan struct{}) countCh := make(chan int, 2) s.RegisterLeaderChange(ch1) s.RegisterLeaderChange(ch2) go func() { <-ch1 countCh <- 1 }() go func() { <-ch2 countCh <- 2 }() if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } count := 0 for { select { case <-countCh: count++ if count == 2 { return } case <-time.After(10 * time.Second): t.Fatalf("timeout waiting for all observations") } } } // Test_StoreReady tests that the Store correctly implements the Ready method. func Test_StoreReady(t *testing.T) { s, ln := mustNewStore(t) defer s.Close(true) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s.Close(true) _, err := s.WaitForLeader(10 * time.Second) if err != nil { t.Fatalf("Error waiting for leader: %s", err) } if !s.Ready() { t.Fatalf("store not marked as ready even though Leader is set") } ch1 := make(chan struct{}) s.RegisterReadyChannel(ch1) if s.Ready() { t.Fatalf("store marked as ready even though registered channel is open") } close(ch1) testPoll(t, s.Ready, 100*time.Millisecond, 2*time.Second) ch2 := make(chan struct{}) s.RegisterReadyChannel(ch2) ch3 := make(chan struct{}) s.RegisterReadyChannel(ch3) if s.Ready() { t.Fatalf("store marked as ready even though registered channels are open") } close(ch2) close(ch3) testPoll(t, s.Ready, 100*time.Millisecond, 2*time.Second) } // Test_SingleNodeExecuteQuery tests that a Store correctly responds to a simple // Execute and Query request. func Test_SingleNodeExecuteQuery(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s.Close(true) _, err := s.WaitForLeader(10 * time.Second) if err != nil { t.Fatalf("Error waiting for leader: %s", err) } er := executeRequestFromStrings([]string{ `CREATE TABLE foo (id INTEGER NOT NULL PRIMARY KEY, name TEXT)`, `INSERT INTO foo(id, name) VALUES(1, "fiona")`, }, false, false) _, err = s.Execute(er) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } qr := queryRequestFromString("SELECT * FROM foo", false, false) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_NONE r, err := s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } // Test_SingleNodeExecuteQueryFail ensures database level errors are presented by the store. func Test_SingleNodeExecuteQueryFail(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s.Close(true) if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } er := executeRequestFromStrings([]string{ `INSERT INTO foo(id, name) VALUES(1, "fiona")`, }, false, false) r, err := s.Execute(er) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } if exp, got := "no such table: foo", r[0].Error; exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } // Test_SingleNodeExecuteQueryTx tests that a Store correctly responds to a simple // Execute and Query request, when the request is wrapped in a transaction. func Test_SingleNodeExecuteQueryTx(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s.Close(true) if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } er := executeRequestFromStrings([]string{ `CREATE TABLE foo (id INTEGER NOT NULL PRIMARY KEY, name TEXT)`, `INSERT INTO foo(id, name) VALUES(1, "fiona")`, }, false, true) _, err := s.Execute(er) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } qr := queryRequestFromString("SELECT * FROM foo", false, true) var r []*command.QueryRows qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_NONE _, err = s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_WEAK _, err = s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_STRONG r, err = s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } // Test_SingleNodeRequest tests simple requests that contain both // queries and execute statements. func Test_SingleNodeRequest(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s.Close(true) _, err := s.WaitForLeader(10 * time.Second) if err != nil { t.Fatalf("Error waiting for leader: %s", err) } er := executeRequestFromStrings([]string{ `CREATE TABLE foo (id INTEGER NOT NULL PRIMARY KEY, name TEXT)`, `INSERT INTO foo(id, name) VALUES(1, "fiona")`, }, false, false) _, err = s.Execute(er) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } tests := []struct { stmts []string expected string associative bool }{ { stmts: []string{}, expected: `[]`, }, { stmts: []string{ `SELECT * FROM foo`, }, expected: `[{"columns":["id","name"],"types":["integer","text"],"values":[[1,"fiona"]]}]`, }, { stmts: []string{ `SELECT * FROM foo`, `INSERT INTO foo(id, name) VALUES(66, "declan")`, }, expected: `[{"columns":["id","name"],"types":["integer","text"],"values":[[1,"fiona"]]},{"last_insert_id":66,"rows_affected":1}]`, }, { stmts: []string{ `INSERT INTO foo(id, name) VALUES(77, "fiona")`, `SELECT COUNT(*) FROM foo`, }, expected: `[{"last_insert_id":77,"rows_affected":1},{"columns":["COUNT(*)"],"types":["integer"],"values":[[3]]}]`, }, { stmts: []string{ `INSERT INTO foo(id, name) VALUES(88, "fiona")`, `nonsense SQL`, `SELECT COUNT(*) FROM foo WHERE name='fiona'`, `SELECT * FROM foo WHERE name='declan'`, }, expected: `[{"last_insert_id":88,"rows_affected":1,"rows":null},{"error":"near \"nonsense\": syntax error"},{"types":{"COUNT(*)":"integer"},"rows":[{"COUNT(*)":3}]},{"types":{"id":"integer","name":"text"},"rows":[{"id":66,"name":"declan"}]}]`, associative: true, }, } for _, tt := range tests { eqr := executeQueryRequestFromStrings(tt.stmts, command.QueryRequest_QUERY_REQUEST_LEVEL_WEAK, false, false) r, err := s.Request(eqr) if err != nil { t.Fatalf("failed to execute request on single node: %s", err.Error()) } var exp string var got string if tt.associative { exp, got = tt.expected, asJSONAssociative(r) } else { exp, got = tt.expected, asJSON(r) } if exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } } // Test_SingleNodeRequest tests simple requests that contain both // queries and execute statements, when wrapped in a transaction. func Test_SingleNodeRequestTx(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s.Close(true) _, err := s.WaitForLeader(10 * time.Second) if err != nil { t.Fatalf("Error waiting for leader: %s", err) } er := executeRequestFromStrings([]string{ `CREATE TABLE foo (id INTEGER NOT NULL PRIMARY KEY, name TEXT)`, }, false, false) _, err = s.Execute(er) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } tests := []struct { stmts []string expected string tx bool }{ { stmts: []string{}, expected: `[]`, }, { stmts: []string{ `INSERT INTO foo(id, name) VALUES(1, "declan")`, `SELECT * FROM foo`, }, expected: `[{"last_insert_id":1,"rows_affected":1},{"columns":["id","name"],"types":["integer","text"],"values":[[1,"declan"]]}]`, }, { stmts: []string{ `INSERT INTO foo(id, name) VALUES(2, "fiona")`, `INSERT INTO foo(id, name) VALUES(1, "fiona")`, `SELECT COUNT(*) FROM foo`, }, expected: `[{"last_insert_id":2,"rows_affected":1},{"error":"UNIQUE constraint failed: foo.id"}]`, tx: true, }, { // Since the above transaction should be rolled back, there will be only one row in the table. stmts: []string{ `SELECT COUNT(*) FROM foo`, }, expected: `[{"columns":["COUNT(*)"],"types":["integer"],"values":[[1]]}]`, }, } for _, tt := range tests { eqr := executeQueryRequestFromStrings(tt.stmts, command.QueryRequest_QUERY_REQUEST_LEVEL_WEAK, false, tt.tx) r, err := s.Request(eqr) if err != nil { t.Fatalf("failed to execute request on single node: %s", err.Error()) } if exp, got := tt.expected, asJSON(r); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } } // Test_SingleNodeRequestParameters tests simple requests that contain // parameters. func Test_SingleNodeRequestParameters(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s.Close(true) _, err := s.WaitForLeader(10 * time.Second) if err != nil { t.Fatalf("Error waiting for leader: %s", err) } er := executeRequestFromStrings([]string{ `CREATE TABLE foo (id INTEGER NOT NULL PRIMARY KEY, name TEXT)`, `INSERT INTO foo(id, name) VALUES(1, "fiona")`, }, false, false) _, err = s.Execute(er) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } tests := []struct { request *command.ExecuteQueryRequest expected string }{ { request: &command.ExecuteQueryRequest{ Request: &command.Request{ Statements: []*command.Statement{ { Sql: "SELECT * FROM foo WHERE id = ?", Parameters: []*command.Parameter{ { Value: &command.Parameter_I{ I: 1, }, }, }, }, }, }, }, expected: `[{"columns":["id","name"],"types":["integer","text"],"values":[[1,"fiona"]]}]`, }, { request: &command.ExecuteQueryRequest{ Request: &command.Request{ Statements: []*command.Statement{ { Sql: "SELECT id FROM foo WHERE name = :qux", Parameters: []*command.Parameter{ { Value: &command.Parameter_S{ S: "fiona", }, Name: "qux", }, }, }, }, }, }, expected: `[{"columns":["id"],"types":["integer"],"values":[[1]]}]`, }, } for _, tt := range tests { r, err := s.Request(tt.request) if err != nil { t.Fatalf("failed to execute request on single node: %s", err.Error()) } if exp, got := tt.expected, asJSON(r); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } } // Test_SingleNodeFK tests that basic foreign-key related functionality works. func Test_SingleNodeFK(t *testing.T) { s, ln := mustNewStoreFK(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s.Close(true) if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } er := executeRequestFromStrings([]string{ `CREATE TABLE foo (id INTEGER NOT NULL PRIMARY KEY, name TEXT)`, `CREATE TABLE bar (fooid INTEGER NOT NULL PRIMARY KEY, FOREIGN KEY(fooid) REFERENCES foo(id))`, }, false, false) _, err := s.Execute(er) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } res, _ := s.Execute(executeRequestFromString("INSERT INTO bar(fooid) VALUES(1)", false, false)) if got, exp := asJSON(res), `[{"error":"FOREIGN KEY constraint failed"}]`; exp != got { t.Fatalf("unexpected results for execute\nexp: %s\ngot: %s", exp, got) } } // Test_SingleNodeExecuteQueryLevels test that various read-consistency // levels work as expected. func Test_SingleNodeOnDiskFileExecuteQuery(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s.Close(true) if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } er := executeRequestFromStrings([]string{ `CREATE TABLE foo (id INTEGER NOT NULL PRIMARY KEY, name TEXT)`, `INSERT INTO foo(id, name) VALUES(1, "fiona")`, }, false, false) _, err := s.Execute(er) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } // Every query should return the same results, so use a function for the check. check := func(r []*command.QueryRows) { if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } qr := queryRequestFromString("SELECT * FROM foo", false, false) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_NONE r, err := s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } check(r) qr = queryRequestFromString("SELECT * FROM foo", false, false) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_WEAK r, err = s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } check(r) qr = queryRequestFromString("SELECT * FROM foo", false, false) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_STRONG r, err = s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } check(r) qr = queryRequestFromString("SELECT * FROM foo", false, true) qr.Timings = true qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_NONE r, err = s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } check(r) qr = queryRequestFromString("SELECT * FROM foo", true, false) qr.Request.Transaction = true qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_NONE r, err = s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } check(r) } // Test_SingleNodeBackup tests that a Store correctly backs up its data // in text format. func Test_SingleNodeBackupText(t *testing.T) { t.Parallel() s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s.Close(true) if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } dump := `PRAGMA foreign_keys=OFF; BEGIN TRANSACTION; CREATE TABLE foo (id integer not null primary key, name text); INSERT INTO "foo" VALUES(1,'fiona'); COMMIT; ` _, err := s.Execute(executeRequestFromString(dump, false, false)) if err != nil { t.Fatalf("failed to load simple dump: %s", err.Error()) } f, err := os.CreateTemp("", "rqlite-baktest-") if err != nil { t.Fatalf("Backup Failed: unable to create temp file, %s", err.Error()) } defer os.Remove(f.Name()) s.logger.Printf("backup file is %s", f.Name()) if err := s.Backup(backupRequestSQL(true), f); err != nil { t.Fatalf("Backup failed %s", err.Error()) } // Check the backed up data bkp, err := os.ReadFile(f.Name()) if err != nil { t.Fatalf("Backup Failed: unable to read backup file, %s", err.Error()) } if ret := bytes.Compare(bkp, []byte(dump)); ret != 0 { t.Fatalf("Backup Failed: backup bytes are not same") } } // Test_SingleNodeSingleCommandTrigger tests that a SQLite trigger works. func Test_SingleNodeSingleCommandTrigger(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s.Close(true) if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } dump := `PRAGMA foreign_keys=OFF; BEGIN TRANSACTION; CREATE TABLE foo (id integer primary key asc, name text); INSERT INTO "foo" VALUES(1,'bob'); INSERT INTO "foo" VALUES(2,'alice'); INSERT INTO "foo" VALUES(3,'eve'); CREATE TABLE bar (nameid integer, age integer); INSERT INTO "bar" VALUES(1,44); INSERT INTO "bar" VALUES(2,46); INSERT INTO "bar" VALUES(3,8); CREATE VIEW foobar as select name as Person, Age as age from foo inner join bar on foo.id == bar.nameid; CREATE TRIGGER new_foobar instead of insert on foobar begin insert into foo (name) values (new.Person); insert into bar (nameid, age) values ((select id from foo where name == new.Person), new.Age); end; COMMIT; ` _, err := s.Execute(executeRequestFromString(dump, false, false)) if err != nil { t.Fatalf("failed to load dump with trigger: %s", err.Error()) } // Check that the VIEW and TRIGGER are OK by using both. er := executeRequestFromString("INSERT INTO foobar VALUES('jason', 16)", false, true) r, err := s.Execute(er) if err != nil { t.Fatalf("failed to insert into view on single node: %s", err.Error()) } if exp, got := int64(3), r[0].GetLastInsertId(); exp != got { t.Fatalf("unexpected results for query\nexp: %d\ngot: %d", exp, got) } } // Test_SingleNodeLoadText tests that a Store correctly loads data in SQL // text format. func Test_SingleNodeLoadText(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s.Close(true) if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } dump := `PRAGMA foreign_keys=OFF; BEGIN TRANSACTION; CREATE TABLE foo (id integer not null primary key, name text); INSERT INTO "foo" VALUES(1,'fiona'); COMMIT; ` _, err := s.Execute(executeRequestFromString(dump, false, false)) if err != nil { t.Fatalf("failed to load simple dump: %s", err.Error()) } // Check that data were loaded correctly. qr := queryRequestFromString("SELECT * FROM foo", false, true) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_STRONG r, err := s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } // Test_SingleNodeLoadTextNoStatements tests that a Store correctly loads data in SQL // text format, when there are no statements. func Test_SingleNodeLoadTextNoStatements(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s.Close(true) if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } dump := `PRAGMA foreign_keys=OFF; BEGIN TRANSACTION; COMMIT; ` _, err := s.Execute(executeRequestFromString(dump, false, false)) if err != nil { t.Fatalf("failed to load dump with no commands: %s", err.Error()) } } // Test_SingleNodeLoadTextEmpty tests that a Store correctly loads data in SQL // text format, when the text is empty. func Test_SingleNodeLoadTextEmpty(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s.Close(true) if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } dump := `` _, err := s.Execute(executeRequestFromString(dump, false, false)) if err != nil { t.Fatalf("failed to load empty dump: %s", err.Error()) } } // Test_SingleNodeLoadTextChinook tests loading and querying of the Chinook DB. func Test_SingleNodeLoadTextChinook(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s.Close(true) if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } _, err := s.Execute(executeRequestFromString(chinook.DB, false, false)) if err != nil { t.Fatalf("failed to load chinook dump: %s", err.Error()) } // Check that data were loaded correctly. qr := queryRequestFromString("SELECT count(*) FROM track", false, true) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_STRONG r, err := s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["count(*)"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[3503]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } qr = queryRequestFromString("SELECT count(*) FROM album", false, true) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_STRONG r, err = s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["count(*)"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[347]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } qr = queryRequestFromString("SELECT count(*) FROM artist", false, true) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_STRONG r, err = s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["count(*)"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[275]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } // Test_SingleNodeLoadBinary tests that a Store correctly loads data in SQLite // binary format from a file. func Test_SingleNodeLoadBinary(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s.Close(true) if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } // Load a dataset, to check it's erased by the SQLite file load. dump := `PRAGMA foreign_keys=OFF; BEGIN TRANSACTION; CREATE TABLE bar (id integer not null primary key, name text); INSERT INTO "bar" VALUES(1,'declan'); COMMIT; ` _, err := s.Execute(executeRequestFromString(dump, false, false)) if err != nil { t.Fatalf("failed to load simple dump: %s", err.Error()) } // Check that data were loaded correctly. qr := queryRequestFromString("SELECT * FROM bar", false, true) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_STRONG r, err := s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"declan"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } err = s.Load(loadRequestFromFile(filepath.Join("testdata", "load.sqlite"))) if err != nil { t.Fatalf("failed to load SQLite file: %s", err.Error()) } // Check that data were loaded correctly. qr = queryRequestFromString("SELECT * FROM foo WHERE id=2", false, true) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_STRONG r, err = s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[2,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } qr = queryRequestFromString("SELECT count(*) FROM foo", false, true) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_STRONG r, err = s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["count(*)"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[3]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } // Check pre-existing data is gone. qr = queryRequestFromString("SELECT * FROM bar", false, true) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_STRONG r, err = s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `{"error":"no such table: bar"}`, asJSON(r[0]); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } // Test_SingleNodeLoadBinaryFromReader tests that a Store correctly loads data in SQLite // binary format from a reader. func Test_SingleNodeLoadBinaryFromReader(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s.Close(true) if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } // Load a dataset, to check it's erased by the SQLite file load. dump := `PRAGMA foreign_keys=OFF; BEGIN TRANSACTION; CREATE TABLE bar (id integer not null primary key, name text); INSERT INTO "bar" VALUES(1,'declan'); COMMIT; ` _, err := s.Execute(executeRequestFromString(dump, false, false)) if err != nil { t.Fatalf("failed to load simple dump: %s", err.Error()) } // Check that data were loaded correctly. qr := queryRequestFromString("SELECT * FROM bar", false, true) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_STRONG r, err := s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"declan"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } f, err := os.Open(filepath.Join("testdata", "load.sqlite")) if err != nil { t.Fatalf("failed to open SQLite file: %s", err.Error()) } defer f.Close() err = s.LoadFromReader(f, 1024*1024) if err != nil { t.Fatalf("failed to load SQLite file via Reader: %s", err.Error()) } // Check that data were loaded correctly. qr = queryRequestFromString("SELECT * FROM foo WHERE id=2", false, true) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_STRONG r, err = s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[2,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } qr = queryRequestFromString("SELECT count(*) FROM foo", false, true) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_STRONG r, err = s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["count(*)"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[3]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } // Check pre-existing data is gone. qr = queryRequestFromString("SELECT * FROM bar", false, true) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_STRONG r, err = s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `{"error":"no such table: bar"}`, asJSON(r[0]); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } func Test_SingleNodeAutoRestore(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() path := mustCopyFileToTempFile(filepath.Join("testdata", "load.sqlite")) if err := s.SetRestorePath(path); err != nil { t.Fatalf("failed to set restore path: %s", err.Error()) } if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } defer s.Close(true) if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } testPoll(t, s.Ready, 100*time.Millisecond, 2*time.Second) qr := queryRequestFromString("SELECT * FROM foo WHERE id=2", false, true) r, err := s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[2,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } func Test_SingleNodeSetRestoreFailStoreOpen(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s.Close(true) path := mustCopyFileToTempFile(filepath.Join("testdata", "load.sqlite")) defer os.Remove(path) if err := s.SetRestorePath(path); err == nil { t.Fatalf("expected error setting restore path on open store") } } func Test_SingleNodeSetRestoreFailBadFile(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s.Close(true) path := mustCreateTempFile() defer os.Remove(path) os.WriteFile(path, []byte("not valid SQLite data"), 0644) if err := s.SetRestorePath(path); err == nil { t.Fatalf("expected error setting restore path with invalid file") } } // Test_SingleNodeRecoverNoChange tests a node recovery that doesn't // actually change anything. func Test_SingleNodeRecoverNoChange(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } queryTest := func() { t.Helper() qr := queryRequestFromString("SELECT * FROM foo", false, false) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_NONE r, err := s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } er := executeRequestFromStrings([]string{ `CREATE TABLE foo (id INTEGER NOT NULL PRIMARY KEY, name TEXT)`, `INSERT INTO foo(id, name) VALUES(1, "fiona")`, }, false, false) _, err := s.Execute(er) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } queryTest() id, addr := s.ID(), s.Addr() if err := s.Close(true); err != nil { t.Fatalf("failed to close single-node store: %s", err.Error()) } // Set up for Recovery during open peers := fmt.Sprintf(`[{"id": "%s","address": "%s"}]`, id, addr) peersPath := filepath.Join(s.Path(), "/raft/peers.json") peersInfo := filepath.Join(s.Path(), "/raft/peers.info") mustWriteFile(peersPath, peers) if err := s.Open(); err != nil { t.Fatalf("failed to re-open single-node store: %s", err.Error()) } if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } queryTest() if err := s.Close(true); err != nil { t.Fatalf("failed to close single-node store: %s", err.Error()) } if pathExists(peersPath) { t.Fatalf("Peers JSON exists at %s", peersPath) } if !pathExists(peersInfo) { t.Fatalf("Peers info does not exist at %s", peersInfo) } } // Test_SingleNodeRecoverNetworkChange tests a node recovery that // involves a changed-network address. func Test_SingleNodeRecoverNetworkChange(t *testing.T) { s0, ln0 := mustNewStore(t) defer ln0.Close() if err := s0.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s0.Bootstrap(NewServer(s0.ID(), s0.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s0.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } queryTest := func(s *Store) { qr := queryRequestFromString("SELECT * FROM foo", false, false) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_NONE r, err := s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } er := executeRequestFromStrings([]string{ `CREATE TABLE foo (id INTEGER NOT NULL PRIMARY KEY, name TEXT)`, `INSERT INTO foo(id, name) VALUES(1, "fiona")`, }, false, false) _, err := s0.Execute(er) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } queryTest(s0) id := s0.ID() if err := s0.Close(true); err != nil { t.Fatalf("failed to close single-node store: %s", err.Error()) } // Create a new node, at the same path. Will presumably have a different // Raft network address, since they are randomly assigned. sR, srLn := mustNewStoreAtPathsLn(id, s0.Path(), "", true) defer srLn.Close() if IsNewNode(sR.Path()) { t.Fatalf("store detected incorrectly as new") } // Set up for Recovery during open peers := fmt.Sprintf(`[{"id": "%s","address": "%s"}]`, s0.ID(), srLn.Addr().String()) peersPath := filepath.Join(sR.Path(), "/raft/peers.json") peersInfo := filepath.Join(sR.Path(), "/raft/peers.info") mustWriteFile(peersPath, peers) if err := sR.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if _, err := sR.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader on recovered node: %s", err) } queryTest(sR) if err := sR.Close(true); err != nil { t.Fatalf("failed to close single-node recovered store: %s", err.Error()) } if pathExists(peersPath) { t.Fatalf("Peers JSON exists at %s", peersPath) } if !pathExists(peersInfo) { t.Fatalf("Peers info does not exist at %s", peersInfo) } } // Test_SingleNodeRecoverNetworkChangeSnapshot tests a node recovery that // involves a changed-network address, with snapshots underneath. func Test_SingleNodeRecoverNetworkChangeSnapshot(t *testing.T) { s0, ln0 := mustNewStore(t) defer ln0.Close() s0.SnapshotThreshold = 4 s0.SnapshotInterval = 100 * time.Millisecond if err := s0.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if err := s0.Bootstrap(NewServer(s0.ID(), s0.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s0.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } queryTest := func(s *Store, c int) { qr := queryRequestFromString("SELECT COUNT(*) FROM foo", false, false) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_NONE r, err := s.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["COUNT(*)"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := fmt.Sprintf(`[[%d]]`, c), asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } er := executeRequestFromStrings([]string{ `CREATE TABLE foo (id INTEGER NOT NULL PRIMARY KEY, name TEXT)`, `INSERT INTO foo(id, name) VALUES(1, "fiona")`, }, false, false) _, err := s0.Execute(er) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } queryTest(s0, 1) for i := 0; i < 9; i++ { er := executeRequestFromStrings([]string{ `INSERT INTO foo(name) VALUES("fiona")`, }, false, false) if _, err := s0.Execute(er); err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } } queryTest(s0, 10) // Wait for a snapshot to take place. for { time.Sleep(100 * time.Millisecond) s0.numSnapshotsMu.Lock() ns := s0.numSnapshots s0.numSnapshotsMu.Unlock() if ns > 0 { break } } id := s0.ID() if err := s0.Close(true); err != nil { t.Fatalf("failed to close single-node store: %s", err.Error()) } // Create a new node, at the same path. Will presumably have a different // Raft network address, since they are randomly assigned. sR, srLn := mustNewStoreAtPathsLn(id, s0.Path(), "", true) if IsNewNode(sR.Path()) { t.Fatalf("store detected incorrectly as new") } // Set up for Recovery during open peers := fmt.Sprintf(`[{"id": "%s","address": "%s"}]`, id, srLn.Addr().String()) peersPath := filepath.Join(sR.Path(), "/raft/peers.json") peersInfo := filepath.Join(sR.Path(), "/raft/peers.info") mustWriteFile(peersPath, peers) if err := sR.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } if _, err := sR.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader on recovered node: %s", err) } queryTest(sR, 10) if err := sR.Close(true); err != nil { t.Fatalf("failed to close single-node recovered store: %s", err.Error()) } if pathExists(peersPath) { t.Fatalf("Peers JSON exists at %s", peersPath) } if !pathExists(peersInfo) { t.Fatalf("Peers info does not exist at %s", peersInfo) } } func Test_SingleNodeSelfJoinNoChangeOK(t *testing.T) { s0, ln0 := mustNewStore(t) defer ln0.Close() if err := s0.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s0.Close(true) if err := s0.Bootstrap(NewServer(s0.ID(), s0.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s0.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } // Self-join should not be a problem. It should just be ignored. err := s0.Join(joinRequest(s0.ID(), s0.Addr(), true)) if err != nil { t.Fatalf("received error for non-changing self-join") } if got, exp := s0.numIgnoredJoins, 1; got != exp { t.Fatalf("wrong number of ignored joins, exp %d, got %d", exp, got) } } func Test_SingleNodeStepdown(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s.Close(true) if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } // Tell leader to step down. Should fail as there is no other node available. if err := s.Stepdown(true); err == nil { t.Fatalf("single node stepped down OK") } } func Test_SingleNodeStepdownNoWaitOK(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s.Close(true) if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } // Tell leader to step down without waiting. if err := s.Stepdown(false); err != nil { t.Fatalf("single node reported error stepping down even when told not to wait") } } func Test_SingleNodeWaitForRemove(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s.Close(true) if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } // Should timeout waiting for removal of ourselves err := s.WaitForRemoval(s.ID(), time.Second) // if err is nil then fail the test if err == nil { t.Fatalf("no error waiting for removal of non-existent node") } if !errors.Is(err, ErrWaitForRemovalTimeout) { t.Fatalf("waiting for removal resulted in wrong error: %s", err.Error()) } // should be no error waiting for removal of non-existent node err = s.WaitForRemoval("non-existent-node", time.Second) if err != nil { t.Fatalf("error waiting for removal of non-existent node: %s", err.Error()) } } func Test_MultiNodeJoinRemove(t *testing.T) { s0, ln0 := mustNewStore(t) defer ln0.Close() if err := s0.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s0.Close(true) if err := s0.Bootstrap(NewServer(s0.ID(), s0.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s0.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } s1, ln1 := mustNewStore(t) defer ln1.Close() if err := s1.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s1.Close(true) if err := s1.Bootstrap(NewServer(s1.ID(), s1.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } // Get sorted list of cluster nodes. storeNodes := []string{s0.ID(), s1.ID()} sort.StringSlice(storeNodes).Sort() // Join the second node to the first. if err := s0.Join(joinRequest(s1.ID(), s1.Addr(), true)); err != nil { t.Fatalf("failed to join to node at %s: %s", s0.Addr(), err.Error()) } _, err := s1.WaitForLeader(10 * time.Second) if err != nil { t.Fatalf("failed to get leader address on follower: %s", err.Error()) } nodes, err := s0.Nodes() if err != nil { t.Fatalf("failed to get nodes: %s", err.Error()) } if len(nodes) != len(storeNodes) { t.Fatalf("size of cluster is not correct") } if storeNodes[0] != nodes[0].ID || storeNodes[1] != nodes[1].ID { t.Fatalf("cluster does not have correct nodes") } // Should timeout waiting for removal of other node err = s0.WaitForRemoval(s1.ID(), time.Second) // if err is nil then fail the test if err == nil { t.Fatalf("no error waiting for removal of non-existent node") } if !errors.Is(err, ErrWaitForRemovalTimeout) { t.Fatalf("waiting for removal resulted in wrong error: %s", err.Error()) } // Remove a node. if err := s0.Remove(removeNodeRequest(s1.ID())); err != nil { t.Fatalf("failed to remove %s from cluster: %s", s1.ID(), err.Error()) } nodes, err = s0.Nodes() if err != nil { t.Fatalf("failed to get nodes post remove: %s", err.Error()) } if len(nodes) != 1 { t.Fatalf("size of cluster is not correct post remove") } if s0.ID() != nodes[0].ID { t.Fatalf("cluster does not have correct nodes post remove") } // Should be no error now waiting for removal of other node err = s0.WaitForRemoval(s1.ID(), time.Second) // if err is nil then fail the test if err != nil { t.Fatalf("error waiting for removal of removed node") } } func Test_MultiNodeStepdown(t *testing.T) { s0, ln0 := mustNewStore(t) defer ln0.Close() if err := s0.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s0.Close(true) if err := s0.Bootstrap(NewServer(s0.ID(), s0.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s0.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } s1, ln1 := mustNewStore(t) defer ln1.Close() if err := s1.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s1.Close(true) s2, ln2 := mustNewStore(t) defer ln2.Close() if err := s2.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s2.Close(true) // Form the 3-node cluster if err := s0.Join(joinRequest(s1.ID(), s1.Addr(), true)); err != nil { t.Fatalf("failed to join to node at %s: %s", s0.Addr(), err.Error()) } if _, err := s1.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } if err := s0.Join(joinRequest(s2.ID(), s2.Addr(), true)); err != nil { t.Fatalf("failed to join to node at %s: %s", s0.Addr(), err.Error()) } if _, err := s2.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } // Tell leader to step down. After this finishes there should be a new Leader. if err := s0.Stepdown(true); err != nil { t.Fatalf("leader failed to step down: %s", err.Error()) } check := func() bool { leader, err := s1.WaitForLeader(10 * time.Second) if err != nil || leader == s0.Addr() { return false } return true } testPoll(t, check, 250*time.Millisecond, 10*time.Second) } func Test_MultiNodeStoreNotifyBootstrap(t *testing.T) { s0, ln0 := mustNewStore(t) defer ln0.Close() if err := s0.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s0.Close(true) s1, ln1 := mustNewStore(t) defer ln1.Close() if err := s1.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s1.Close(true) s2, ln2 := mustNewStore(t) defer ln2.Close() if err := s2.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s2.Close(true) s0.BootstrapExpect = 3 if err := s0.Notify(notifyRequest(s0.ID(), ln0.Addr().String())); err != nil { t.Fatalf("failed to notify store: %s", err.Error()) } if err := s0.Notify(notifyRequest(s0.ID(), ln0.Addr().String())); err != nil { t.Fatalf("failed to notify store -- not idempotent: %s", err.Error()) } if err := s0.Notify(notifyRequest(s1.ID(), ln1.Addr().String())); err != nil { t.Fatalf("failed to notify store: %s", err.Error()) } if err := s0.Notify(notifyRequest(s2.ID(), ln2.Addr().String())); err != nil { t.Fatalf("failed to notify store: %s", err.Error()) } // Check that the cluster bootstrapped properly. reportedLeaders := make([]string, 3) for i, n := range []*Store{s0, s1, s2} { check := func() bool { nodes, err := n.Nodes() return err == nil && len(nodes) == 3 } testPoll(t, check, 250*time.Millisecond, 10*time.Second) var err error reportedLeaders[i], err = n.WaitForLeader(10 * time.Second) if err != nil { t.Fatalf("failed to get leader on node %d (id=%s): %s", i, n.raftID, err.Error()) } } if reportedLeaders[0] != reportedLeaders[1] || reportedLeaders[0] != reportedLeaders[2] { t.Fatalf("leader not the same on each node") } // Calling Notify() on a node that is part of a cluster should // be a no-op. if err := s0.Notify(notifyRequest(s1.ID(), ln1.Addr().String())); err != nil { t.Fatalf("failed to notify store that is part of cluster: %s", err.Error()) } } // Test_MultiNodeStoreAutoRestoreBootstrap tests that a cluster will // bootstrap correctly when each node is supplied with an auto-restore // file. Only one node should do able to restore from the file. func Test_MultiNodeStoreAutoRestoreBootstrap(t *testing.T) { ResetStats() s0, ln0 := mustNewStore(t) defer ln0.Close() s1, ln1 := mustNewStore(t) defer ln1.Close() s2, ln2 := mustNewStore(t) defer ln2.Close() path0 := mustCopyFileToTempFile(filepath.Join("testdata", "load.sqlite")) path1 := mustCopyFileToTempFile(filepath.Join("testdata", "load.sqlite")) path2 := mustCopyFileToTempFile(filepath.Join("testdata", "load.sqlite")) s0.SetRestorePath(path0) s1.SetRestorePath(path1) s2.SetRestorePath(path2) for i, s := range []*Store{s0, s1, s2} { if err := s.Open(); err != nil { t.Fatalf("failed to open store %d: %s", i, err.Error()) } defer s.Close(true) } // Trigger a bootstrap. s0.BootstrapExpect = 3 for _, s := range []*Store{s0, s1, s2} { if err := s0.Notify(notifyRequest(s.ID(), s.ln.Addr().String())); err != nil { t.Fatalf("failed to notify store: %s", err.Error()) } } // Wait for the cluster to bootstrap. _, err := s0.WaitForLeader(10 * time.Second) if err != nil { t.Fatalf("failed to get leader: %s", err.Error()) } // Ultimately there is a hard-to-control timing issue here. Knowing // exactly when the leader has applied the restore is difficult, so // just wait a bit. time.Sleep(2 * time.Second) if !s0.Ready() { t.Fatalf("node is not ready") } qr := queryRequestFromString("SELECT * FROM foo WHERE id=2", false, true) r, err := s0.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[2,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if pathExists(path0) || pathExists(path1) || pathExists(path2) { t.Fatalf("an auto-restore file was not removed") } numAuto := stats.Get(numAutoRestores).(*expvar.Int).Value() numAutoSkipped := stats.Get(numAutoRestoresSkipped).(*expvar.Int).Value() if exp, got := int64(1), numAuto; exp != got { t.Fatalf("unexpected number of auto-restores\nexp: %d\ngot: %d", exp, got) } if exp, got := int64(2), numAutoSkipped; exp != got { t.Fatalf("unexpected number of auto-restores skipped\nexp: %d\ngot: %d", exp, got) } } func Test_MultiNodeJoinNonVoterRemove(t *testing.T) { s0, ln0 := mustNewStore(t) defer ln0.Close() if err := s0.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s0.Close(true) if err := s0.Bootstrap(NewServer(s0.ID(), s0.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s0.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } s1, ln1 := mustNewStore(t) defer ln1.Close() if err := s1.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s1.Close(true) // Get sorted list of cluster nodes. storeNodes := []string{s0.ID(), s1.ID()} sort.StringSlice(storeNodes).Sort() // Join the second node to the first. if err := s0.Join(joinRequest(s1.ID(), s1.Addr(), false)); err != nil { t.Fatalf("failed to join to node at %s: %s", s0.Addr(), err.Error()) } if _, err := s1.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } // Check leader state on follower. got, err := s1.LeaderAddr() if err != nil { t.Fatalf("failed to get leader address: %s", err.Error()) } if exp := s0.Addr(); got != exp { t.Fatalf("wrong leader address returned, got: %s, exp %s", got, exp) } id, err := waitForLeaderID(s1, 10*time.Second) if err != nil { t.Fatalf("failed to retrieve leader ID: %s", err.Error()) } if got, exp := id, s0.raftID; got != exp { t.Fatalf("wrong leader ID returned, got: %s, exp %s", got, exp) } nodes, err := s0.Nodes() if err != nil { t.Fatalf("failed to get nodes: %s", err.Error()) } if len(nodes) != len(storeNodes) { t.Fatalf("size of cluster is not correct") } if storeNodes[0] != nodes[0].ID || storeNodes[1] != nodes[1].ID { t.Fatalf("cluster does not have correct nodes") } // Remove the non-voter. if err := s0.Remove(removeNodeRequest(s1.ID())); err != nil { t.Fatalf("failed to remove %s from cluster: %s", s1.ID(), err.Error()) } nodes, err = s0.Nodes() if err != nil { t.Fatalf("failed to get nodes post remove: %s", err.Error()) } if len(nodes) != 1 { t.Fatalf("size of cluster is not correct post remove") } if s0.ID() != nodes[0].ID { t.Fatalf("cluster does not have correct nodes post remove") } } func Test_MultiNodeExecuteQuery(t *testing.T) { s0, ln0 := mustNewStore(t) defer ln0.Close() if err := s0.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s0.Close(true) if err := s0.Bootstrap(NewServer(s0.ID(), s0.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s0.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } s1, ln1 := mustNewStore(t) defer ln1.Close() if err := s1.Open(); err != nil { t.Fatalf("failed to open node for multi-node test: %s", err.Error()) } defer s1.Close(true) s2, ln2 := mustNewStore(t) defer ln2.Close() if err := s2.Open(); err != nil { t.Fatalf("failed to open node for multi-node test: %s", err.Error()) } defer s2.Close(true) // Join the second node to the first as a voting node. if err := s0.Join(joinRequest(s1.ID(), s1.Addr(), true)); err != nil { t.Fatalf("failed to join to node at %s: %s", s0.Addr(), err.Error()) } // Join the third node to the first as a non-voting node. if err := s0.Join(joinRequest(s2.ID(), s2.Addr(), false)); err != nil { t.Fatalf("failed to join to node at %s: %s", s0.Addr(), err.Error()) } er := executeRequestFromStrings([]string{ `CREATE TABLE foo (id INTEGER NOT NULL PRIMARY KEY, name TEXT)`, `INSERT INTO foo(id, name) VALUES(1, "fiona")`, }, false, false) _, err := s0.Execute(er) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } s0FsmIdx, err := s0.WaitForAppliedFSM(5 * time.Second) if err != nil { t.Fatalf("failed to wait for fsmIndex: %s", err.Error()) } qr := queryRequestFromString("SELECT * FROM foo", false, false) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_NONE r, err := s0.Query(qr) if err != nil { t.Fatalf("failed to query leader node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } // Wait until the log entries have been applied to the voting follower, // and then query. if _, err := s1.WaitForFSMIndex(s0FsmIdx, 5*time.Second); err != nil { t.Fatalf("error waiting for follower to apply index: %s:", err.Error()) } qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_WEAK _, err = s1.Query(qr) if err == nil { t.Fatalf("successfully queried non-leader node") } qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_STRONG _, err = s1.Query(qr) if err == nil { t.Fatalf("successfully queried non-leader node") } qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_NONE r, err = s1.Query(qr) if err != nil { t.Fatalf("failed to query follower node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } // Wait until the 3 log entries have been applied to the non-voting follower, // and then query. if err := s2.WaitForAppliedIndex(3, 5*time.Second); err != nil { t.Fatalf("error waiting for follower to apply index: %s:", err.Error()) } qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_WEAK _, err = s1.Query(qr) if err == nil { t.Fatalf("successfully queried non-voting node with Weak") } qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_STRONG _, err = s1.Query(qr) if err == nil { t.Fatalf("successfully queried non-voting node with Strong") } qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_NONE r, err = s1.Query(qr) if err != nil { t.Fatalf("failed to query non-voting node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } // Test_SingleNodeExecuteQueryFreshness tests that freshness is ignored on the Leader. func Test_SingleNodeExecuteQueryFreshness(t *testing.T) { s0, ln0 := mustNewStore(t) defer ln0.Close() if err := s0.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s0.Close(true) if err := s0.Bootstrap(NewServer(s0.ID(), s0.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s0.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } er := executeRequestFromStrings([]string{ `CREATE TABLE foo (id INTEGER NOT NULL PRIMARY KEY, name TEXT)`, `INSERT INTO foo(id, name) VALUES(1, "fiona")`, }, false, false) _, err := s0.Execute(er) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } _, err = s0.WaitForAppliedFSM(5 * time.Second) if err != nil { t.Fatalf("failed to wait for fsmIndex: %s", err.Error()) } qr := queryRequestFromString("SELECT * FROM foo", false, false) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_NONE qr.Freshness = mustParseDuration("1ns").Nanoseconds() r, err := s0.Query(qr) if err != nil { t.Fatalf("failed to query leader node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } func Test_MultiNodeExecuteQueryFreshness(t *testing.T) { s0, ln0 := mustNewStore(t) defer ln0.Close() if err := s0.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s0.Close(true) if err := s0.Bootstrap(NewServer(s0.ID(), s0.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s0.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } s1, ln1 := mustNewStore(t) defer ln1.Close() if err := s1.Open(); err != nil { t.Fatalf("failed to open node for multi-node test: %s", err.Error()) } defer s1.Close(true) // Join the second node to the first. if err := s0.Join(joinRequest(s1.ID(), s1.Addr(), true)); err != nil { t.Fatalf("failed to join to node at %s: %s", s0.Addr(), err.Error()) } er := executeRequestFromStrings([]string{ `CREATE TABLE foo (id INTEGER NOT NULL PRIMARY KEY, name TEXT)`, `INSERT INTO foo(id, name) VALUES(1, "fiona")`, }, false, false) _, err := s0.Execute(er) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } qr := queryRequestFromString("SELECT * FROM foo", false, false) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_NONE r, err := s0.Query(qr) if err != nil { t.Fatalf("failed to query leader node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } // Wait until the 3 log entries have been applied to the follower, // and then query. if err := s1.WaitForAppliedIndex(3, 5*time.Second); err != nil { t.Fatalf("error waiting for follower to apply index: %s:", err.Error()) } // "Weak" consistency queries with 1 nanosecond freshness should pass, because freshness // is ignored in this case. qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_WEAK qr.Freshness = mustParseDuration("1ns").Nanoseconds() _, err = s0.Query(qr) if err != nil { t.Fatalf("Failed to ignore freshness if level is Weak: %s", err.Error()) } qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_STRONG // "Strong" consistency queries with 1 nanosecond freshness should pass, because freshness // is ignored in this case. _, err = s0.Query(qr) if err != nil { t.Fatalf("Failed to ignore freshness if level is Strong: %s", err.Error()) } // Kill leader. s0.Close(true) // "None" consistency queries should still work. qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_NONE qr.Freshness = 0 r, err = s1.Query(qr) if err != nil { t.Fatalf("failed to query follower node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } // Wait for the freshness interval to pass. time.Sleep(mustParseDuration("1s")) // "None" consistency queries with 1 nanosecond freshness should fail, because at least // one nanosecond *should* have passed since leader died (surely!). qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_NONE qr.Freshness = mustParseDuration("1ns").Nanoseconds() _, err = s1.Query(qr) if err == nil { t.Fatalf("freshness violating query didn't return an error") } if err != ErrStaleRead { t.Fatalf("freshness violating query returned wrong error: %s", err.Error()) } // Freshness of 0 is ignored. qr.Freshness = 0 r, err = s1.Query(qr) if err != nil { t.Fatalf("failed to query follower node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } // "None" consistency queries with 1 hour freshness should pass, because it should // not be that long since the leader died. qr.Freshness = mustParseDuration("1h").Nanoseconds() r, err = s1.Query(qr) if err != nil { t.Fatalf("failed to query follower node: %s", err.Error()) } if exp, got := `["id","name"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[1,"fiona"]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } // Check Stale-read detection works with Requests too. eqr := executeQueryRequestFromString("SELECT * FROM foo", command.QueryRequest_QUERY_REQUEST_LEVEL_NONE, false, false) eqr.Freshness = mustParseDuration("1ns").Nanoseconds() _, err = s1.Request(eqr) if err == nil { t.Fatalf("freshness violating request didn't return an error") } if err != ErrStaleRead { t.Fatalf("freshness violating request returned wrong error: %s", err.Error()) } eqr.Freshness = 0 eqresp, err := s1.Request(eqr) if err != nil { t.Fatalf("inactive freshness violating request returned an error") } if exp, got := `[{"columns":["id","name"],"types":["integer","text"],"values":[[1,"fiona"]]}]`, asJSON(eqresp); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } func Test_StoreLogTruncationMultinode(t *testing.T) { s0, ln0 := mustNewStore(t) defer ln0.Close() s0.SnapshotThreshold = 4 s0.SnapshotInterval = 100 * time.Millisecond if err := s0.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s0.Close(true) if err := s0.Bootstrap(NewServer(s0.ID(), s0.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s0.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } nSnaps := stats.Get(numSnaphots).String() // Write more than s.SnapshotThreshold statements. queries := []string{ `CREATE TABLE foo (id INTEGER NOT NULL PRIMARY KEY, name TEXT)`, `INSERT INTO foo(id, name) VALUES(1, "fiona")`, `INSERT INTO foo(id, name) VALUES(2, "fiona")`, `INSERT INTO foo(id, name) VALUES(3, "fiona")`, `INSERT INTO foo(id, name) VALUES(4, "fiona")`, `INSERT INTO foo(id, name) VALUES(5, "fiona")`, } for i := range queries { _, err := s0.Execute(executeRequestFromString(queries[i], false, false)) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } } // Wait for the snapshot to happen and log to be truncated. f := func() bool { return stats.Get(numSnaphots).String() != nSnaps } testPoll(t, f, 100*time.Millisecond, 2*time.Second) // Do one more execute, to ensure there is at least one log not snapshot. // Without this, there is no guarantee fsmIndex will be set on s1. _, err := s0.Execute(executeRequestFromString(`INSERT INTO foo(id, name) VALUES(6, "fiona")`, false, false)) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } // Fire up new node and ensure it picks up all changes. This will // involve getting a snapshot and truncated log. s1, ln1 := mustNewStore(t) defer ln1.Close() if err := s1.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s1.Close(true) // Join the second node to the first. if err := s0.Join(joinRequest(s1.ID(), s1.Addr(), true)); err != nil { t.Fatalf("failed to join to node at %s: %s", s0.Addr(), err.Error()) } if _, err := s1.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } // Wait until the log entries have been applied to the follower, // and then query. if err := s1.WaitForAppliedIndex(8, 5*time.Second); err != nil { t.Fatalf("error waiting for follower to apply index: %s:", err.Error()) } qr := queryRequestFromString("SELECT count(*) FROM foo", false, true) qr.Level = command.QueryRequest_QUERY_REQUEST_LEVEL_NONE r, err := s1.Query(qr) if err != nil { t.Fatalf("failed to query single node: %s", err.Error()) } if exp, got := `["count(*)"]`, asJSON(r[0].Columns); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } if exp, got := `[[6]]`, asJSON(r[0].Values); exp != got { t.Fatalf("unexpected results for query\nexp: %s\ngot: %s", exp, got) } } func Test_SingleNodeNoop(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s.Close(true) if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } if err := s.Noop("1"); err != nil { t.Fatalf("failed to write noop command: %s", err.Error()) } if s.numNoops != 1 { t.Fatalf("noop count is wrong, got: %d", s.numNoops) } } func Test_IsLeader(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s.Close(true) if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } if !s.IsLeader() { t.Fatalf("single node is not leader!") } } func Test_IsVoter(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s.Close(true) if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } v, err := s.IsVoter() if err != nil { t.Fatalf("failed to check if single node is a voter: %s", err.Error()) } if !v { t.Fatalf("single node is not a voter!") } } func Test_RequiresLeader(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s.Close(true) if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } er := executeRequestFromString(`CREATE TABLE foo (id INTEGER NOT NULL PRIMARY KEY, name TEXT)`, false, false) _, err := s.Execute(er) if err != nil { t.Fatalf("failed to execute on single node: %s", err.Error()) } tests := []struct { name string stmts []string lvl command.QueryRequest_Level requires bool }{ { name: "Empty SQL", stmts: []string{""}, requires: false, }, { name: "Junk SQL", stmts: []string{"asdkflj asgkdj"}, requires: true, }, { name: "CREATE TABLE statement, already exists", stmts: []string{"CREATE TABLE foo (id INTEGER NOT NULL PRIMARY KEY, name TEXT)"}, requires: true, }, { name: "CREATE TABLE statement, does not exists", stmts: []string{"CREATE TABLE bar (id INTEGER NOT NULL PRIMARY KEY, name TEXT)"}, requires: true, }, { name: "Single INSERT", stmts: []string{"INSERT INTO foo(id, name) VALUES(1, 'fiona')"}, requires: true, }, { name: "Single INSERT, non-existent table", stmts: []string{"INSERT INTO qux(id, name) VALUES(1, 'fiona')"}, requires: true, }, { name: "Single SELECT with implicit NONE", stmts: []string{"SELECT * FROM foo"}, requires: false, }, { name: "Single SELECT with NONE", stmts: []string{"SELECT * FROM foo"}, lvl: command.QueryRequest_QUERY_REQUEST_LEVEL_NONE, requires: false, }, { name: "Single SELECT from non-existent table with NONE", stmts: []string{"SELECT * FROM qux"}, lvl: command.QueryRequest_QUERY_REQUEST_LEVEL_NONE, requires: true, }, { name: "Double SELECT with NONE", stmts: []string{"SELECT * FROM foo", "SELECT * FROM foo WHERE id = 1"}, lvl: command.QueryRequest_QUERY_REQUEST_LEVEL_NONE, requires: false, }, { name: "Single SELECT with STRONG", stmts: []string{"SELECT * FROM foo"}, lvl: command.QueryRequest_QUERY_REQUEST_LEVEL_STRONG, requires: true, }, { name: "Single SELECT with WEAK", stmts: []string{"SELECT * FROM foo"}, lvl: command.QueryRequest_QUERY_REQUEST_LEVEL_WEAK, requires: true, }, { name: "Mix queries and executes with NONE", stmts: []string{"SELECT * FROM foo", "INSERT INTO foo(id, name) VALUES(1, 'fiona')"}, lvl: command.QueryRequest_QUERY_REQUEST_LEVEL_NONE, requires: true, }, { name: "Mix queries and executes with WEAK", stmts: []string{"SELECT * FROM foo", "INSERT INTO foo(id, name) VALUES(1, 'fiona')"}, lvl: command.QueryRequest_QUERY_REQUEST_LEVEL_WEAK, requires: true, }, } for _, tt := range tests { t.Run(tt.name, func(t *testing.T) { requires := s.RequiresLeader(executeQueryRequestFromStrings(tt.stmts, tt.lvl, false, false)) if requires != tt.requires { t.Fatalf(" test %s failed, unexpected requires: expected %v, got %v", tt.name, tt.requires, requires) } }) } } func Test_State(t *testing.T) { s, ln := mustNewStore(t) defer ln.Close() if err := s.Open(); err != nil { t.Fatalf("failed to open single-node store: %s", err.Error()) } defer s.Close(true) if err := s.Bootstrap(NewServer(s.ID(), s.Addr(), true)); err != nil { t.Fatalf("failed to bootstrap single-node store: %s", err.Error()) } if _, err := s.WaitForLeader(10 * time.Second); err != nil { t.Fatalf("Error waiting for leader: %s", err) } state := s.State() if state != Leader { t.Fatalf("single node returned incorrect state (not Leader): %v", s) } } func mustNewStoreAtPathsLn(id, dataPath, sqlitePath string, fk bool) (*Store, net.Listener) { cfg := NewDBConfig() cfg.FKConstraints = fk cfg.OnDiskPath = sqlitePath ln := mustMockLister("localhost:0") s := New(ln, &Config{ DBConf: cfg, Dir: dataPath, ID: id, }) if s == nil { panic("failed to create new store") } return s, ln } func mustNewStore(t *testing.T) (*Store, net.Listener) { return mustNewStoreAtPathsLn(random.String(), t.TempDir(), "", false) } func mustNewStoreFK(t *testing.T) (*Store, net.Listener) { return mustNewStoreAtPathsLn(random.String(), t.TempDir(), "", true) } func mustNewStoreSQLitePath(t *testing.T) (*Store, net.Listener, string) { dataDir := t.TempDir() sqliteDir := t.TempDir() sqlitePath := filepath.Join(sqliteDir, "explicit-path.db") s, ln := mustNewStoreAtPathsLn(random.String(), dataDir, sqlitePath, true) return s, ln, sqlitePath } type mockSnapshotSink struct { *os.File } func (m *mockSnapshotSink) ID() string { return "1" } func (m *mockSnapshotSink) Cancel() error { return nil } type mockListener struct { ln net.Listener } func mustMockLister(addr string) Listener { ln, err := net.Listen("tcp", addr) if err != nil { panic("failed to create new listner") } return &mockListener{ln} } func (m *mockListener) Dial(addr string, timeout time.Duration) (net.Conn, error) { return net.DialTimeout("tcp", addr, timeout) } func (m *mockListener) Accept() (net.Conn, error) { return m.ln.Accept() } func (m *mockListener) Close() error { return m.ln.Close() } func (m *mockListener) Addr() net.Addr { return m.ln.Addr() } func mustCreateTempFile() string { f, err := os.CreateTemp("", "rqlite-temp") if err != nil { panic("failed to create temporary file") } f.Close() return f.Name() } func mustWriteFile(path, contents string) { err := os.WriteFile(path, []byte(contents), 0644) if err != nil { panic("failed to write to file") } } func mustReadFile(path string) []byte { b, err := os.ReadFile(path) if err != nil { panic("failed to read file") } return b } func mustCopyFileToTempFile(path string) string { f := mustCreateTempFile() mustWriteFile(f, string(mustReadFile(path))) return f } func mustParseDuration(t string) time.Duration { d, err := time.ParseDuration(t) if err != nil { panic("failed to parse duration") } return d } func executeRequestFromString(s string, timings, tx bool) *command.ExecuteRequest { return executeRequestFromStrings([]string{s}, timings, tx) } // executeRequestFromStrings converts a slice of strings into a command.ExecuteRequest func executeRequestFromStrings(s []string, timings, tx bool) *command.ExecuteRequest { stmts := make([]*command.Statement, len(s)) for i := range s { stmts[i] = &command.Statement{ Sql: s[i], } } return &command.ExecuteRequest{ Request: &command.Request{ Statements: stmts, Transaction: tx, }, Timings: timings, } } func queryRequestFromString(s string, timings, tx bool) *command.QueryRequest { return queryRequestFromStrings([]string{s}, timings, tx) } // queryRequestFromStrings converts a slice of strings into a command.QueryRequest func queryRequestFromStrings(s []string, timings, tx bool) *command.QueryRequest { stmts := make([]*command.Statement, len(s)) for i := range s { stmts[i] = &command.Statement{ Sql: s[i], } } return &command.QueryRequest{ Request: &command.Request{ Statements: stmts, Transaction: tx, }, Timings: timings, } } func executeQueryRequestFromString(s string, lvl command.QueryRequest_Level, timings, tx bool) *command.ExecuteQueryRequest { return executeQueryRequestFromStrings([]string{s}, lvl, timings, tx) } func executeQueryRequestFromStrings(s []string, lvl command.QueryRequest_Level, timings, tx bool) *command.ExecuteQueryRequest { stmts := make([]*command.Statement, len(s)) for i := range s { stmts[i] = &command.Statement{ Sql: s[i], } } return &command.ExecuteQueryRequest{ Request: &command.Request{ Statements: stmts, Transaction: tx, }, Timings: timings, Level: lvl, } } func backupRequestSQL(leader bool) *command.BackupRequest { return &command.BackupRequest{ Format: command.BackupRequest_BACKUP_REQUEST_FORMAT_SQL, Leader: leader, } } func backupRequestBinary(leader bool) *command.BackupRequest { return &command.BackupRequest{ Format: command.BackupRequest_BACKUP_REQUEST_FORMAT_BINARY, Leader: leader, } } func loadRequestFromFile(path string) *command.LoadRequest { return &command.LoadRequest{ Data: mustReadFile(path), } } func joinRequest(id, addr string, voter bool) *command.JoinRequest { return &command.JoinRequest{ Id: id, Address: addr, Voter: voter, } } func notifyRequest(id, addr string) *command.NotifyRequest { return &command.NotifyRequest{ Id: id, Address: addr, } } func removeNodeRequest(id string) *command.RemoveNodeRequest { return &command.RemoveNodeRequest{ Id: id, } } // waitForLeaderID waits until the Store's LeaderID is set, or the timeout // expires. Because setting Leader ID requires Raft to set the cluster // configuration, it's not entirely deterministic when it will be set. func waitForLeaderID(s *Store, timeout time.Duration) (string, error) { tck := time.NewTicker(100 * time.Millisecond) defer tck.Stop() tmr := time.NewTimer(timeout) defer tmr.Stop() for { select { case <-tck.C: id, err := s.LeaderID() if err != nil { return "", err } if id != "" { return id, nil } case <-tmr.C: return "", fmt.Errorf("timeout expired") } } } func asJSON(v interface{}) string { enc := encoding.Encoder{} b, err := enc.JSONMarshal(v) if err != nil { panic(fmt.Sprintf("failed to JSON marshal value: %s", err.Error())) } return string(b) } func asJSONAssociative(v interface{}) string { enc := encoding.Encoder{ Associative: true, } b, err := enc.JSONMarshal(v) if err != nil { panic(fmt.Sprintf("failed to JSON marshal value: %s", err.Error())) } return string(b) } func testPoll(t *testing.T, f func() bool, p time.Duration, d time.Duration) { tck := time.NewTicker(p) defer tck.Stop() tmr := time.NewTimer(d) defer tmr.Stop() for { select { case <-tck.C: if f() { return } case <-tmr.C: t.Fatalf("timeout expired: %s", t.Name()) } } }