package api_test import ( "encoding/json" "io/ioutil" "math/rand" "os" "strconv" "testing" "time" "github.com/ethereum/go-ethereum/log" "github.com/status-im/status-go/geth/api" "github.com/status-im/status-go/geth/node" "github.com/status-im/status-go/geth/params" "github.com/status-im/status-go/geth/signal" . "github.com/status-im/status-go/t/utils" "github.com/stretchr/testify/suite" ) const ( testChatID = "testChat" ) func TestAPI(t *testing.T) { suite.Run(t, new(APITestSuite)) } type APITestSuite struct { suite.Suite api *api.StatusAPI } func (s *APITestSuite) ensureNodeStopped() { if err := s.api.StopNode(); err != node.ErrNoRunningNode && err != nil { s.NoError(err, "unexpected error") } } func (s *APITestSuite) SetupTest() { s.api = api.NewStatusAPI() s.NotNil(s.api) } func (s *APITestSuite) TestCHTUpdate() { tmpDir, err := ioutil.TempDir(os.TempDir(), "cht-updates") s.NoError(err) defer os.RemoveAll(tmpDir) //nolint: errcheck configJSON := `{ "NetworkId": ` + strconv.Itoa(params.RopstenNetworkID) + `, "DataDir": "` + tmpDir + `", "LogLevel": "INFO", "RPCEnabled": true }` _, err = params.LoadNodeConfig(configJSON) s.NoError(err) // TODO(tiabc): Test that CHT is really updated. } func (s *APITestSuite) TestRaceConditions() { cnt := 25 progress := make(chan struct{}, cnt) rnd := rand.New(rand.NewSource(time.Now().UnixNano())) nodeConfig1, err := MakeTestNodeConfig(GetNetworkID()) s.NoError(err) nodeConfig2, err := MakeTestNodeConfig(GetNetworkID()) s.NoError(err) nodeConfigs := []*params.NodeConfig{nodeConfig1, nodeConfig2} var funcsToTest = []func(*params.NodeConfig){ func(config *params.NodeConfig) { log.Info("StartNodeAsync()") s.api.StartNodeAsync(config) s.T().Logf("StartNodeAsync() for network: %d", config.NetworkID) progress <- struct{}{} }, func(config *params.NodeConfig) { log.Info("StopNodeAsync()") s.api.StopNodeAsync() s.T().Logf("StopNodeAsync()") progress <- struct{}{} }, func(config *params.NodeConfig) { log.Info("RestartNodeAsync()") s.api.RestartNodeAsync() s.T().Logf("RestartNodeAsync()") progress <- struct{}{} }, // TODO(adam): quarantined until it uses a different datadir // as otherwise it wipes out cached blockchain data. // func(config *params.NodeConfig) { // log.Info("ResetChainDataAsync()") // _, err := s.api.ResetChainDataAsync() // s.T().Logf("ResetChainDataAsync(), error: %v", err) // progress <- struct{}{} // }, } // increase StartNode()/StopNode() population for i := 0; i < 5; i++ { funcsToTest = append(funcsToTest, funcsToTest[0], funcsToTest[1]) } for i := 0; i < cnt; i++ { randConfig := nodeConfigs[rnd.Intn(len(nodeConfigs))] randFunc := funcsToTest[rnd.Intn(len(funcsToTest))] if rnd.Intn(100) > 75 { // introduce random delays time.Sleep(500 * time.Millisecond) } go randFunc(randConfig) } for range progress { cnt -= 1 if cnt <= 0 { break } } time.Sleep(2 * time.Second) // so that we see some logs // just in case we have a node running s.ensureNodeStopped() } func (s *APITestSuite) TestCellsRemovedAfterSwitchAccount() { const itersCount = 5 var ( require = s.Require() getChatId = func(id int) string { return testChatID + strconv.Itoa(id) } ) config, err := MakeTestNodeConfig(GetNetworkID()) require.NoError(err) err = s.api.StartNode(config) require.NoError(err) defer s.api.StopNode() //nolint: errcheck address1, _, _, err := s.api.AccountManager().CreateAccount(TestConfig.Account1.Password) require.NoError(err) address2, _, _, err := s.api.AccountManager().CreateAccount(TestConfig.Account2.Password) require.NoError(err) err = s.api.SelectAccount(address1, TestConfig.Account1.Password) require.NoError(err) for i := 0; i < itersCount; i++ { _, e := s.api.JailManager().CreateCell(getChatId(i)) require.NoError(e) } err = s.api.SelectAccount(address2, TestConfig.Account2.Password) require.NoError(err) for i := 0; i < itersCount; i++ { _, e := s.api.JailManager().Cell(getChatId(i)) require.Error(e) } } // TestLogoutRemovesCells we want be sure that // cells will be removed after the API call "Logout" func (s *APITestSuite) TestLogoutRemovesCells() { var ( err error require = s.Require() ) config, err := MakeTestNodeConfig(GetNetworkID()) require.NoError(err) err = s.api.StartNode(config) require.NoError(err) defer s.api.StopNode() //nolint: errcheck address1, _, _, err := s.api.AccountManager().CreateAccount(TestConfig.Account1.Password) require.NoError(err) err = s.api.SelectAccount(address1, TestConfig.Account1.Password) require.NoError(err) s.api.JailManager().CreateAndInitCell(testChatID) err = s.api.Logout() require.NoError(err) _, err = s.api.JailManager().Cell(testChatID) require.Error(err, "Expected that cells was removed") } func (s *APITestSuite) TestEventsNodeStartStop() { envelopes := make(chan signal.Envelope, 3) signal.SetDefaultNodeNotificationHandler(func(jsonEvent string) { var envelope signal.Envelope err := json.Unmarshal([]byte(jsonEvent), &envelope) s.NoError(err) envelopes <- envelope }) nodeConfig, err := MakeTestNodeConfig(GetNetworkID()) s.NoError(err) s.NoError(s.api.StartNode(nodeConfig)) s.NoError(s.api.StopNode()) s.verifyEnvelopes(envelopes, signal.EventNodeStarted, signal.EventNodeReady, signal.EventNodeStopped) s.NoError(s.api.StartNode(nodeConfig)) s.verifyEnvelopes(envelopes, signal.EventNodeStarted, signal.EventNodeReady) s.NoError(s.api.RestartNode()) s.verifyEnvelopes(envelopes, signal.EventNodeStopped, signal.EventNodeStarted, signal.EventNodeReady) s.NoError(s.api.StopNode()) s.verifyEnvelopes(envelopes, signal.EventNodeStopped) } func (s *APITestSuite) verifyEnvelopes(envelopes chan signal.Envelope, envelopeTypes ...string) { for _, envelopeType := range envelopeTypes { select { case env := <-envelopes: s.Equal(envelopeType, env.Type) case <-time.After(1 * time.Second): s.Fail("timeout waiting for envelope") } } } func (s *APITestSuite) TestNodeStartCrash() { // let's listen for node.crashed signal signalReceived := make(chan struct{}) signal.SetDefaultNodeNotificationHandler(func(jsonEvent string) { var envelope signal.Envelope err := json.Unmarshal([]byte(jsonEvent), &envelope) s.NoError(err) if envelope.Type == signal.EventNodeCrashed { close(signalReceived) } }) defer signal.ResetDefaultNodeNotificationHandler() nodeConfig, err := MakeTestNodeConfig(GetNetworkID()) s.NoError(err) // start node outside the manager (on the same port), so that manager node.Start() method fails outsideNode, err := node.MakeNode(nodeConfig) s.NoError(err) err = outsideNode.Start() s.NoError(err) // now try starting using node manager, it should fail (error is irrelevant as it is implementation detail) s.Error(<-s.api.StartNodeAsync(nodeConfig)) select { case <-time.After(500 * time.Millisecond): s.FailNow("timed out waiting for signal") case <-signalReceived: } // stop outside node, and re-try s.NoError(outsideNode.Stop()) signalReceived = make(chan struct{}) s.NoError(<-s.api.StartNodeAsync(nodeConfig)) select { case <-time.After(500 * time.Millisecond): case <-signalReceived: s.FailNow("signal should not be received") } // cleanup s.NoError(s.api.StopNode()) }