package activity import ( "context" "database/sql" "math/big" "testing" "time" eth "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/event" "github.com/status-im/status-go/appdatabase" "github.com/status-im/status-go/multiaccounts/accounts" "github.com/status-im/status-go/services/wallet/bigint" "github.com/status-im/status-go/services/wallet/common" "github.com/status-im/status-go/services/wallet/thirdparty" "github.com/status-im/status-go/services/wallet/token" "github.com/status-im/status-go/services/wallet/transfer" "github.com/status-im/status-go/services/wallet/walletevent" "github.com/status-im/status-go/t/helpers" "github.com/status-im/status-go/transactions" "github.com/status-im/status-go/walletdatabase" "github.com/stretchr/testify/mock" "github.com/stretchr/testify/require" ) const shouldNotWaitTimeout = 19999 * time.Second // mockCollectiblesManager implements the collectibles.ManagerInterface type mockCollectiblesManager struct { mock.Mock } func (m *mockCollectiblesManager) FetchAssetsByCollectibleUniqueID(ctx context.Context, uniqueIDs []thirdparty.CollectibleUniqueID, asyncFetch bool) ([]thirdparty.FullCollectibleData, error) { args := m.Called(uniqueIDs) res := args.Get(0) if res == nil { return nil, args.Error(1) } return res.([]thirdparty.FullCollectibleData), args.Error(1) } // mockTokenManager implements the token.ManagerInterface type mockTokenManager struct { mock.Mock } func (m *mockTokenManager) LookupTokenIdentity(chainID uint64, address eth.Address, native bool) *token.Token { args := m.Called(chainID, address, native) res := args.Get(0) if res == nil { return nil } return res.(*token.Token) } func (m *mockTokenManager) LookupToken(chainID *uint64, tokenSymbol string) (tkn *token.Token, isNative bool) { args := m.Called(chainID, tokenSymbol) return args.Get(0).(*token.Token), args.Bool(1) } type testState struct { service *Service eventFeed *event.Feed tokenMock *mockTokenManager collectiblesMock *mockCollectiblesManager close func() pendingTracker *transactions.PendingTxTracker chainClient *transactions.MockChainClient } func setupTestService(tb testing.TB) (state testState) { db, err := helpers.SetupTestMemorySQLDB(walletdatabase.DbInitializer{}) require.NoError(tb, err) appDB, err := helpers.SetupTestMemorySQLDB(appdatabase.DbInitializer{}) require.NoError(tb, err) accountsDB, err := accounts.NewDB(appDB) require.NoError(tb, err) state.eventFeed = new(event.Feed) state.tokenMock = &mockTokenManager{} state.collectiblesMock = &mockCollectiblesManager{} state.chainClient = transactions.NewMockChainClient() // Ensure we process pending transactions as needed, only once pendingCheckInterval := time.Second state.pendingTracker = transactions.NewPendingTxTracker(db, state.chainClient, nil, state.eventFeed, pendingCheckInterval) state.service = NewService(db, accountsDB, state.tokenMock, state.collectiblesMock, state.eventFeed, state.pendingTracker) state.service.debounceDuration = 0 state.close = func() { require.NoError(tb, state.pendingTracker.Stop()) require.NoError(tb, db.Close()) } return state } type arg struct { chainID common.ChainID tokenAddressStr string tokenIDStr string tokenID *big.Int tokenAddress *eth.Address } // insertStubTransfersWithCollectibles will insert nil if tokenIDStr is empty func insertStubTransfersWithCollectibles(t *testing.T, db *sql.DB, args []arg) (fromAddresses, toAddresses []eth.Address) { trs, fromAddresses, toAddresses := transfer.GenerateTestTransfers(t, db, 0, len(args)) for i := range args { trs[i].ChainID = args[i].chainID if args[i].tokenIDStr == "" { args[i].tokenID = nil } else { args[i].tokenID = new(big.Int) args[i].tokenID.SetString(args[i].tokenIDStr, 0) } args[i].tokenAddress = new(eth.Address) *args[i].tokenAddress = eth.HexToAddress(args[i].tokenAddressStr) transfer.InsertTestTransferWithOptions(t, db, trs[i].To, &trs[i], &transfer.TestTransferOptions{ TokenAddress: *args[i].tokenAddress, TokenID: args[i].tokenID, }) } return fromAddresses, toAddresses } func TestService_UpdateCollectibleInfo(t *testing.T) { state := setupTestService(t) defer state.close() args := []arg{ {5, "0xA2838FDA19EB6EED3F8B9EFF411D4CD7D2DE0313", "0x0D", nil, nil}, {5, "0xA2838FDA19EB6EED3F8B9EFF411D4CD7D2DE0313", "0x762AD3E4934E687F8701F24C7274E5209213FD6208FF952ACEB325D028866949", nil, nil}, {5, "0x3d6afaa395c31fcd391fe3d562e75fe9e8ec7e6a", "", nil, nil}, {5, "0xA2838FDA19EB6EED3F8B9EFF411D4CD7D2DE0313", "0x0F", nil, nil}, } fromAddresses, toAddresses := insertStubTransfersWithCollectibles(t, state.service.db, args) ch := make(chan walletevent.Event) sub := state.eventFeed.Subscribe(ch) // Expect one call for the fungible token state.tokenMock.On("LookupTokenIdentity", uint64(5), eth.HexToAddress("0x3d6afaa395c31fcd391fe3d562e75fe9e8ec7e6a"), false).Return( &token.Token{ ChainID: 5, Address: eth.HexToAddress("0x3d6afaa395c31fcd391fe3d562e75fe9e8ec7e6a"), Symbol: "STT", }, false, ).Once() state.collectiblesMock.On("FetchAssetsByCollectibleUniqueID", []thirdparty.CollectibleUniqueID{ { ContractID: thirdparty.ContractID{ ChainID: args[3].chainID, Address: *args[3].tokenAddress}, TokenID: &bigint.BigInt{Int: args[3].tokenID}, }, { ContractID: thirdparty.ContractID{ ChainID: args[1].chainID, Address: *args[1].tokenAddress}, TokenID: &bigint.BigInt{Int: args[1].tokenID}, }, }).Return([]thirdparty.FullCollectibleData{ { CollectibleData: thirdparty.CollectibleData{ Name: "Test 2", ImageURL: "test://url/2"}, CollectionData: nil, }, { CollectibleData: thirdparty.CollectibleData{ Name: "Test 1", ImageURL: "test://url/1"}, CollectionData: nil, }, }, nil).Once() state.service.FilterActivityAsync(0, append(fromAddresses, toAddresses...), allNetworksFilter(), Filter{}, 0, 3) filterResponseCount := 0 var updates []EntryData for i := 0; i < 2; i++ { select { case res := <-ch: switch res.Type { case EventActivityFilteringDone: payload, err := walletevent.GetPayload[FilterResponse](res) require.NoError(t, err) require.Equal(t, ErrorCodeSuccess, payload.ErrorCode) require.Equal(t, 3, len(payload.Activities)) filterResponseCount++ case EventActivityFilteringUpdate: err := walletevent.ExtractPayload(res, &updates) require.NoError(t, err) } case <-time.NewTimer(shouldNotWaitTimeout).C: require.Fail(t, "timeout while waiting for event") } } require.Equal(t, 1, filterResponseCount) require.Equal(t, 2, len(updates)) require.Equal(t, "Test 2", *updates[0].NftName) require.Equal(t, "test://url/2", *updates[0].NftURL) require.Equal(t, "Test 1", *updates[1].NftName) require.Equal(t, "test://url/1", *updates[1].NftURL) sub.Unsubscribe() } func TestService_UpdateCollectibleInfo_Error(t *testing.T) { state := setupTestService(t) defer state.close() args := []arg{ {5, "0xA2838FDA19EB6EED3F8B9EFF411D4CD7D2DE0313", "0x762AD3E4934E687F8701F24C7274E5209213FD6208FF952ACEB325D028866949", nil, nil}, {5, "0xA2838FDA19EB6EED3F8B9EFF411D4CD7D2DE0313", "0x0D", nil, nil}, } ch := make(chan walletevent.Event, 4) sub := state.eventFeed.Subscribe(ch) fromAddresses, toAddresses := insertStubTransfersWithCollectibles(t, state.service.db, args) state.collectiblesMock.On("FetchAssetsByCollectibleUniqueID", mock.Anything).Return(nil, thirdparty.ErrChainIDNotSupported).Once() state.service.FilterActivityAsync(0, append(fromAddresses, toAddresses...), allNetworksFilter(), Filter{}, 0, 5) filterResponseCount := 0 updatesCount := 0 for i := 0; i < 2; i++ { select { case res := <-ch: switch res.Type { case EventActivityFilteringDone: payload, err := walletevent.GetPayload[FilterResponse](res) require.NoError(t, err) require.Equal(t, ErrorCodeSuccess, payload.ErrorCode) require.Equal(t, 2, len(payload.Activities)) filterResponseCount++ case EventActivityFilteringUpdate: updatesCount++ } case <-time.NewTimer(20 * time.Millisecond).C: // We wait to ensure the EventActivityFilteringUpdate is never sent } } require.Equal(t, 1, filterResponseCount) require.Equal(t, 0, updatesCount) sub.Unsubscribe() } func setupTransactions(t *testing.T, state testState, txCount int, testTxs []transactions.TestTxSummary) (allAddresses []eth.Address, pendings []transactions.PendingTransaction, ch chan walletevent.Event, cleanup func()) { ch = make(chan walletevent.Event, 4) sub := state.eventFeed.Subscribe(ch) pendings = transactions.MockTestTransactions(t, state.chainClient, testTxs) for _, p := range pendings { allAddresses = append(allAddresses, p.From, p.To) } txs, fromTrs, toTrs := transfer.GenerateTestTransfers(t, state.service.db, len(pendings), txCount) for i := range txs { transfer.InsertTestTransfer(t, state.service.db, txs[i].To, &txs[i]) } allAddresses = append(append(allAddresses, fromTrs...), toTrs...) state.tokenMock.On("LookupTokenIdentity", mock.Anything, mock.Anything, mock.Anything).Return( &token.Token{ ChainID: 5, Address: eth.Address{}, Symbol: "ETH", }, true, ).Times(0) state.tokenMock.On("LookupToken", mock.Anything, mock.Anything).Return( &token.Token{ ChainID: 5, Address: eth.Address{}, Symbol: "ETH", }, true, ).Times(0) return allAddresses, pendings, ch, func() { sub.Unsubscribe() } } func getValidateSessionUpdateHasNewOnTopFn(t *testing.T) func(payload SessionUpdate) bool { return func(payload SessionUpdate) bool { require.NotNil(t, payload.HasNewOnTop) require.True(t, *payload.HasNewOnTop) return false } } // validateSessionUpdateEvent expects will give up early if checkPayloadFn return true and not wait for expectCount func validateSessionUpdateEvent(t *testing.T, ch chan walletevent.Event, filterResponseCount *int, expectCount int, checkPayloadFn func(payload SessionUpdate) bool) (pendingTransactionUpdate, sessionUpdatesCount int) { for sessionUpdatesCount < expectCount { select { case res := <-ch: switch res.Type { case transactions.EventPendingTransactionUpdate: pendingTransactionUpdate++ case EventActivitySessionUpdated: payload, err := walletevent.GetPayload[SessionUpdate](res) require.NoError(t, err) if checkPayloadFn != nil && checkPayloadFn(*payload) { return } sessionUpdatesCount++ case EventActivityFilteringDone: (*filterResponseCount)++ } case <-time.NewTimer(shouldNotWaitTimeout).C: require.Fail(t, "timeout while waiting for EventActivitySessionUpdated") } } return } type extraExpect struct { offset *int errorCode *ErrorCode } func getOptionalExpectations(e *extraExpect) (expectOffset int, expectErrorCode ErrorCode) { expectOffset = 0 expectErrorCode = ErrorCodeSuccess if e != nil { if e.offset != nil { expectOffset = *e.offset } if e.errorCode != nil { expectErrorCode = *e.errorCode } } return } func validateFilteringDone(t *testing.T, ch chan walletevent.Event, resCount int, checkPayloadFn func(payload FilterResponse), extra *extraExpect) (filterResponseCount int) { for filterResponseCount < 1 { select { case res := <-ch: switch res.Type { case EventActivityFilteringDone: payload, err := walletevent.GetPayload[FilterResponse](res) require.NoError(t, err) expectOffset, expectErrorCode := getOptionalExpectations(extra) require.Equal(t, expectErrorCode, payload.ErrorCode) require.Equal(t, resCount, len(payload.Activities)) require.Equal(t, expectOffset, payload.Offset) filterResponseCount++ if checkPayloadFn != nil { checkPayloadFn(*payload) } } case <-time.NewTimer(shouldNotWaitTimeout).C: require.Fail(t, "timeout while waiting for EventActivityFilteringDone") } } return } func TestService_IncrementalUpdateOnTop(t *testing.T) { state := setupTestService(t) defer state.close() transactionCount := 2 allAddresses, pendings, ch, cleanup := setupTransactions(t, state, transactionCount, []transactions.TestTxSummary{{DontConfirm: true, Timestamp: transactionCount + 1}}) defer cleanup() sessionID := state.service.StartFilterSession(allAddresses, allNetworksFilter(), Filter{}, 5) require.Greater(t, sessionID, SessionID(0)) defer state.service.StopFilterSession(sessionID) filterResponseCount := validateFilteringDone(t, ch, 2, nil, nil) exp := pendings[0] err := state.pendingTracker.StoreAndTrackPendingTx(&exp) require.NoError(t, err) vFn := getValidateSessionUpdateHasNewOnTopFn(t) pendingTransactionUpdate, sessionUpdatesCount := validateSessionUpdateEvent(t, ch, &filterResponseCount, 1, vFn) err = state.service.ResetFilterSession(sessionID, 5) require.NoError(t, err) // Validate the reset data eventActivityDoneCount := validateFilteringDone(t, ch, 3, func(payload FilterResponse) { require.True(t, payload.Activities[0].isNew) require.False(t, payload.Activities[1].isNew) require.False(t, payload.Activities[2].isNew) // Check the new transaction data newTx := payload.Activities[0] require.Equal(t, PendingTransactionPT, newTx.payloadType) // We don't keep type in the DB require.Equal(t, (*int)(nil), newTx.transferType) require.Equal(t, SendAT, newTx.activityType) require.Equal(t, PendingAS, newTx.activityStatus) require.Equal(t, exp.ChainID, newTx.transaction.ChainID) require.Equal(t, exp.ChainID, *newTx.chainIDOut) require.Equal(t, (*common.ChainID)(nil), newTx.chainIDIn) require.Equal(t, exp.Hash, newTx.transaction.Hash) // Pending doesn't have address as part of identity require.Equal(t, eth.Address{}, newTx.transaction.Address) require.Equal(t, exp.From, *newTx.sender) require.Equal(t, exp.To, *newTx.recipient) require.Equal(t, 0, exp.Value.Int.Cmp((*big.Int)(newTx.amountOut))) require.Equal(t, exp.Timestamp, uint64(newTx.timestamp)) require.Equal(t, exp.Symbol, *newTx.symbolOut) require.Equal(t, (*string)(nil), newTx.symbolIn) require.Equal(t, &Token{ TokenType: Native, ChainID: 5, }, newTx.tokenOut) require.Equal(t, (*Token)(nil), newTx.tokenIn) require.Equal(t, (*eth.Address)(nil), newTx.contractAddress) // Check the order of the following transaction data require.Equal(t, SimpleTransactionPT, payload.Activities[1].payloadType) require.Equal(t, int64(transactionCount), payload.Activities[1].timestamp) require.Equal(t, SimpleTransactionPT, payload.Activities[2].payloadType) require.Equal(t, int64(transactionCount-1), payload.Activities[2].timestamp) }, nil) require.Equal(t, 1, pendingTransactionUpdate) require.Equal(t, 1, filterResponseCount) require.Equal(t, 1, sessionUpdatesCount) require.Equal(t, 1, eventActivityDoneCount) } func TestService_IncrementalUpdateMixed(t *testing.T) { state := setupTestService(t) defer state.close() transactionCount := 5 allAddresses, pendings, ch, cleanup := setupTransactions(t, state, transactionCount, []transactions.TestTxSummary{ {DontConfirm: true, Timestamp: 2}, {DontConfirm: true, Timestamp: 4}, {DontConfirm: true, Timestamp: 6}, }, ) defer cleanup() sessionID := state.service.StartFilterSession(allAddresses, allNetworksFilter(), Filter{}, 5) require.Greater(t, sessionID, SessionID(0)) defer state.service.StopFilterSession(sessionID) filterResponseCount := validateFilteringDone(t, ch, 5, nil, nil) for i := range pendings { err := state.pendingTracker.StoreAndTrackPendingTx(&pendings[i]) require.NoError(t, err) } pendingTransactionUpdate, sessionUpdatesCount := validateSessionUpdateEvent(t, ch, &filterResponseCount, 2, func(payload SessionUpdate) bool { require.Nil(t, payload.HasNewOnTop) require.NotEmpty(t, payload.New) for _, update := range payload.New { require.True(t, update.Entry.isNew) foundIdx := -1 for i, pTx := range pendings { if pTx.Hash == update.Entry.transaction.Hash && pTx.ChainID == update.Entry.transaction.ChainID { foundIdx = i break } } require.Greater(t, foundIdx, -1, "the updated transaction should be found in the pending list") pendings = append(pendings[:foundIdx], pendings[foundIdx+1:]...) } return len(pendings) == 1 }) // Validate that the last one (oldest) is out of the window require.Equal(t, 1, len(pendings)) require.Equal(t, uint64(2), pendings[0].Timestamp) require.Equal(t, 3, pendingTransactionUpdate) require.LessOrEqual(t, sessionUpdatesCount, 3) require.Equal(t, 1, filterResponseCount) } func TestService_IncrementalUpdateFetchWindow(t *testing.T) { state := setupTestService(t) defer state.close() transactionCount := 5 allAddresses, pendings, ch, cleanup := setupTransactions(t, state, transactionCount, []transactions.TestTxSummary{{DontConfirm: true, Timestamp: transactionCount + 1}}) defer cleanup() sessionID := state.service.StartFilterSession(allAddresses, allNetworksFilter(), Filter{}, 2) require.Greater(t, sessionID, SessionID(0)) defer state.service.StopFilterSession(sessionID) filterResponseCount := validateFilteringDone(t, ch, 2, nil, nil) exp := pendings[0] err := state.pendingTracker.StoreAndTrackPendingTx(&exp) require.NoError(t, err) vFn := getValidateSessionUpdateHasNewOnTopFn(t) pendingTransactionUpdate, sessionUpdatesCount := validateSessionUpdateEvent(t, ch, &filterResponseCount, 1, vFn) err = state.service.ResetFilterSession(sessionID, 2) require.NoError(t, err) // Validate the reset data eventActivityDoneCount := validateFilteringDone(t, ch, 2, func(payload FilterResponse) { require.True(t, payload.Activities[0].isNew) require.Equal(t, int64(transactionCount+1), payload.Activities[0].timestamp) require.False(t, payload.Activities[1].isNew) require.Equal(t, int64(transactionCount), payload.Activities[1].timestamp) }, nil) require.Equal(t, 1, pendingTransactionUpdate) require.Equal(t, 1, filterResponseCount) require.Equal(t, 1, sessionUpdatesCount) require.Equal(t, 1, eventActivityDoneCount) err = state.service.GetMoreForFilterSession(sessionID, 2) require.NoError(t, err) eventActivityDoneCount = validateFilteringDone(t, ch, 2, func(payload FilterResponse) { require.False(t, payload.Activities[0].isNew) require.Equal(t, int64(transactionCount-1), payload.Activities[0].timestamp) require.False(t, payload.Activities[1].isNew) require.Equal(t, int64(transactionCount-2), payload.Activities[1].timestamp) }, common.NewAndSet(extraExpect{common.NewAndSet(2), nil})) require.Equal(t, 1, eventActivityDoneCount) } func TestService_IncrementalUpdateFetchWindowNoReset(t *testing.T) { state := setupTestService(t) defer state.close() transactionCount := 5 allAddresses, pendings, ch, cleanup := setupTransactions(t, state, transactionCount, []transactions.TestTxSummary{{DontConfirm: true, Timestamp: transactionCount + 1}}) defer cleanup() sessionID := state.service.StartFilterSession(allAddresses, allNetworksFilter(), Filter{}, 2) require.Greater(t, sessionID, SessionID(0)) defer state.service.StopFilterSession(sessionID) filterResponseCount := validateFilteringDone(t, ch, 2, func(payload FilterResponse) { require.Equal(t, int64(transactionCount), payload.Activities[0].timestamp) require.Equal(t, int64(transactionCount-1), payload.Activities[1].timestamp) }, nil) exp := pendings[0] err := state.pendingTracker.StoreAndTrackPendingTx(&exp) require.NoError(t, err) vFn := getValidateSessionUpdateHasNewOnTopFn(t) pendingTransactionUpdate, sessionUpdatesCount := validateSessionUpdateEvent(t, ch, &filterResponseCount, 1, vFn) require.Equal(t, 1, pendingTransactionUpdate) require.Equal(t, 1, filterResponseCount) require.Equal(t, 1, sessionUpdatesCount) err = state.service.GetMoreForFilterSession(sessionID, 2) require.NoError(t, err) // Validate that client continue loading the next window without being affected by the internal state of new eventActivityDoneCount := validateFilteringDone(t, ch, 2, func(payload FilterResponse) { require.False(t, payload.Activities[0].isNew) require.Equal(t, int64(transactionCount-2), payload.Activities[0].timestamp) require.False(t, payload.Activities[1].isNew) require.Equal(t, int64(transactionCount-3), payload.Activities[1].timestamp) }, common.NewAndSet(extraExpect{common.NewAndSet(2), nil})) require.Equal(t, 1, eventActivityDoneCount) } // Simulate and validate a multi-step user flow that was also a regression in the original implementation func TestService_FilteredIncrementalUpdateResetAndClear(t *testing.T) { state := setupTestService(t) defer state.close() transactionCount := 5 allAddresses, pendings, ch, cleanup := setupTransactions(t, state, transactionCount, []transactions.TestTxSummary{{DontConfirm: true, Timestamp: transactionCount + 1}}) defer cleanup() // Generate new transaction for step 5 newOffset := transactionCount + 2 newTxs, newFromTrs, newToTrs := transfer.GenerateTestTransfers(t, state.service.db, newOffset, 1) allAddresses = append(append(allAddresses, newFromTrs...), newToTrs...) // 1. User visualizes transactions for the first time sessionID := state.service.StartFilterSession(allAddresses, allNetworksFilter(), Filter{}, 4) require.Greater(t, sessionID, SessionID(0)) defer state.service.StopFilterSession(sessionID) validateFilteringDone(t, ch, 4, nil, nil) // 2. User applies a filter for pending transactions err := state.service.UpdateFilterForSession(sessionID, Filter{Statuses: []Status{PendingAS}}, 4) require.NoError(t, err) filterResponseCount := validateFilteringDone(t, ch, 0, nil, nil) // 3. A pending transaction is added exp := pendings[0] err = state.pendingTracker.StoreAndTrackPendingTx(&exp) require.NoError(t, err) vFn := getValidateSessionUpdateHasNewOnTopFn(t) pendingTransactionUpdate, sessionUpdatesCount := validateSessionUpdateEvent(t, ch, &filterResponseCount, 1, vFn) // 4. User resets the view and the new pending transaction has the new flag err = state.service.ResetFilterSession(sessionID, 2) require.NoError(t, err) // Validate the reset data eventActivityDoneCount := validateFilteringDone(t, ch, 1, func(payload FilterResponse) { require.True(t, payload.Activities[0].isNew) require.Equal(t, int64(transactionCount+1), payload.Activities[0].timestamp) }, nil) require.Equal(t, 1, pendingTransactionUpdate) require.Equal(t, 1, filterResponseCount) require.Equal(t, 1, sessionUpdatesCount) require.Equal(t, 1, eventActivityDoneCount) // 5. A new transaction is downloaded transfer.InsertTestTransfer(t, state.service.db, newTxs[0].To, &newTxs[0]) // 6. User clears the filter and only the new transaction should have the new flag err = state.service.UpdateFilterForSession(sessionID, Filter{}, 4) require.NoError(t, err) eventActivityDoneCount = validateFilteringDone(t, ch, 4, func(payload FilterResponse) { require.True(t, payload.Activities[0].isNew) require.Equal(t, int64(newOffset), payload.Activities[0].timestamp) require.False(t, payload.Activities[1].isNew) require.Equal(t, int64(newOffset-1), payload.Activities[1].timestamp) require.False(t, payload.Activities[2].isNew) require.Equal(t, int64(newOffset-2), payload.Activities[2].timestamp) require.False(t, payload.Activities[3].isNew) require.Equal(t, int64(newOffset-3), payload.Activities[3].timestamp) }, nil) require.Equal(t, 1, eventActivityDoneCount) }