package activity import ( "database/sql" "testing" "github.com/status-im/status-go/appdatabase" "github.com/status-im/status-go/eth-node/types" "github.com/status-im/status-go/multiaccounts/accounts" "github.com/status-im/status-go/services/wallet/common" "github.com/status-im/status-go/services/wallet/testutils" "github.com/status-im/status-go/services/wallet/transfer" eth "github.com/ethereum/go-ethereum/common" eth_common "github.com/ethereum/go-ethereum/common" "github.com/stretchr/testify/require" ) func setupTestActivityDB(t *testing.T) (db *sql.DB, close func()) { db, err := appdatabase.SetupTestMemorySQLDB("wallet-activity-tests") require.NoError(t, err) return db, func() { require.NoError(t, db.Close()) } } type testData struct { tr1 transfer.TestTransaction // index 1 pendingTr transfer.TestTransaction // index 2 singletonMTr transfer.TestTransaction // index 3 mTr transfer.TestTransaction // index 4 subTr transfer.TestTransaction // index 5 subPendingTr transfer.TestTransaction // index 6 singletonMTID transfer.MultiTransactionIDType mTrID transfer.MultiTransactionIDType } // Generates and adds to the DB 6 transactions. 2 transactions, 2 pending and 2 multi transactions // There are only 4 extractable transactions and multi-transaction with timestamps 1-4. The other 2 are associated with a multi-transaction func fillTestData(t *testing.T, db *sql.DB) (td testData) { trs := transfer.GenerateTestTransactions(t, db, 1, 6) td.tr1 = trs[0] transfer.InsertTestTransfer(t, db, &td.tr1) td.pendingTr = trs[1] transfer.InsertTestPendingTransaction(t, db, &td.pendingTr) td.singletonMTr = trs[2] td.singletonMTr.FromToken = testutils.SntSymbol td.singletonMTr.ToToken = testutils.DaiSymbol td.singletonMTID = transfer.InsertTestMultiTransaction(t, db, &td.singletonMTr) td.mTr = trs[3] td.mTr.ToToken = testutils.SntSymbol td.mTrID = transfer.InsertTestMultiTransaction(t, db, &td.mTr) td.subTr = trs[4] td.subTr.MultiTransactionID = td.mTrID transfer.InsertTestTransfer(t, db, &td.subTr) td.subPendingTr = trs[5] td.subPendingTr.MultiTransactionID = td.mTrID transfer.InsertTestPendingTransaction(t, db, &td.subPendingTr) return } func TestGetActivityEntriesAll(t *testing.T) { db, close := setupTestActivityDB(t) defer close() td := fillTestData(t, db) var filter Filter entries, err := GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 10) require.NoError(t, err) require.Equal(t, 4, len(entries)) // Ensure we have the correct order var curTimestamp int64 = 4 for _, entry := range entries { require.Equal(t, curTimestamp, entry.timestamp, "entries are sorted by timestamp; expected %d, got %d", curTimestamp, entry.timestamp) curTimestamp-- } require.True(t, testutils.StructExistsInSlice(Entry{ payloadType: SimpleTransactionPT, transaction: &transfer.TransactionIdentity{ChainID: td.tr1.ChainID, Hash: td.tr1.Hash, Address: td.tr1.To}, id: td.tr1.MultiTransactionID, timestamp: td.tr1.Timestamp, activityType: ReceiveAT, activityStatus: FinalizedAS, tokenType: AssetTT, }, entries)) require.True(t, testutils.StructExistsInSlice(Entry{ payloadType: PendingTransactionPT, transaction: &transfer.TransactionIdentity{ChainID: td.pendingTr.ChainID, Hash: td.pendingTr.Hash}, id: td.pendingTr.MultiTransactionID, timestamp: td.pendingTr.Timestamp, activityType: ReceiveAT, activityStatus: PendingAS, tokenType: AssetTT, }, entries)) require.True(t, testutils.StructExistsInSlice(Entry{ payloadType: MultiTransactionPT, transaction: nil, id: td.singletonMTID, timestamp: td.singletonMTr.Timestamp, activityType: SendAT, activityStatus: FinalizedAS, tokenType: AssetTT, }, entries)) require.True(t, testutils.StructExistsInSlice(Entry{ payloadType: MultiTransactionPT, transaction: nil, id: td.mTrID, timestamp: td.mTr.Timestamp, activityType: SendAT, activityStatus: FinalizedAS, tokenType: AssetTT, }, entries)) // Ensure the sub-transactions of the multi-transactions are not returned require.False(t, testutils.StructExistsInSlice(Entry{ payloadType: SimpleTransactionPT, transaction: &transfer.TransactionIdentity{ChainID: td.subTr.ChainID, Hash: td.subTr.Hash, Address: td.subTr.To}, id: td.subTr.MultiTransactionID, timestamp: td.subTr.Timestamp, activityType: SendAT, activityStatus: FinalizedAS, tokenType: AssetTT, }, entries)) require.False(t, testutils.StructExistsInSlice(Entry{ payloadType: PendingTransactionPT, transaction: &transfer.TransactionIdentity{ChainID: td.subPendingTr.ChainID, Hash: td.subPendingTr.Hash}, id: td.subPendingTr.MultiTransactionID, timestamp: td.subPendingTr.Timestamp, activityType: SendAT, activityStatus: PendingAS, tokenType: AssetTT, }, entries)) } // TestGetActivityEntriesWithSenderFilter covers the issue with returning the same transaction // twice when the sender and receiver have entries in the transfers table func TestGetActivityEntriesWithSameTransactionForSenderAndReceiverInDB(t *testing.T) { db, close := setupTestActivityDB(t) defer close() // Add 4 extractable transactions with timestamps 1-4 td := fillTestData(t, db) // Add another transaction with sender and receiver reversed receiverTr := td.tr1 prevTo := receiverTr.To receiverTr.To = td.tr1.From receiverTr.From = prevTo // TODO: test also when there is a transaction in the other direction // Ensure they are the oldest transactions (last in the list) and we have a consistent order receiverTr.Timestamp-- transfer.InsertTestTransfer(t, db, &receiverTr) var filter Filter entries, err := GetActivityEntries(db, []eth.Address{td.tr1.From, receiverTr.From}, []common.ChainID{}, filter, 0, 10) require.NoError(t, err) require.Equal(t, 2, len(entries)) // Check that the transaction are labeled alternatively as send and receive require.Equal(t, ReceiveAT, entries[1].activityType) require.NotEqual(t, eth.Address{}, entries[1].transaction.Address) require.Equal(t, receiverTr.To, entries[1].transaction.Address) require.Equal(t, SendAT, entries[0].activityType) require.NotEqual(t, eth.Address{}, entries[0].transaction.Address) require.Equal(t, td.tr1.From, entries[0].transaction.Address) // add accounts to DB for proper detection of sender/receiver in all cases accounts.AddTestAccounts(t, db, []*accounts.Account{ {Address: types.Address(td.tr1.From), Type: accounts.AccountTypeWatch}, {Address: types.Address(receiverTr.From), Type: accounts.AccountTypeWatch}, }) entries, err = GetActivityEntries(db, []eth.Address{}, []common.ChainID{}, filter, 0, 10) require.NoError(t, err) require.Equal(t, 5, len(entries)) // Check that the transaction are labeled alternatively as send and receive require.Equal(t, ReceiveAT, entries[4].activityType) require.Equal(t, SendAT, entries[3].activityType) } func TestGetActivityEntriesFilterByTime(t *testing.T) { db, close := setupTestActivityDB(t) defer close() td := fillTestData(t, db) // Add 6 extractable transactions with timestamps 6-12 trs := transfer.GenerateTestTransactions(t, db, 6, 6) for i := range trs { transfer.InsertTestTransfer(t, db, &trs[i]) } // Test start only var filter Filter filter.Period.StartTimestamp = td.singletonMTr.Timestamp filter.Period.EndTimestamp = NoLimitTimestampForPeriod entries, err := GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 8, len(entries)) // Check start and end content require.Equal(t, Entry{ payloadType: SimpleTransactionPT, transaction: &transfer.TransactionIdentity{ChainID: trs[5].ChainID, Hash: trs[5].Hash, Address: trs[5].To}, id: 0, timestamp: trs[5].Timestamp, activityType: ReceiveAT, activityStatus: FinalizedAS, tokenType: AssetTT, }, entries[0]) require.Equal(t, Entry{ payloadType: MultiTransactionPT, transaction: nil, id: td.singletonMTID, timestamp: td.singletonMTr.Timestamp, activityType: SendAT, activityStatus: FinalizedAS, tokenType: AssetTT, }, entries[7]) // Test complete interval filter.Period.EndTimestamp = trs[2].Timestamp entries, err = GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 5, len(entries)) // Check start and end content require.Equal(t, Entry{ payloadType: SimpleTransactionPT, transaction: &transfer.TransactionIdentity{ChainID: trs[2].ChainID, Hash: trs[2].Hash, Address: trs[2].To}, id: 0, timestamp: trs[2].Timestamp, activityType: ReceiveAT, activityStatus: FinalizedAS, tokenType: AssetTT, }, entries[0]) require.Equal(t, Entry{ payloadType: MultiTransactionPT, transaction: nil, id: td.singletonMTID, timestamp: td.singletonMTr.Timestamp, activityType: SendAT, activityStatus: FinalizedAS, tokenType: AssetTT, }, entries[4]) // Test end only filter.Period.StartTimestamp = NoLimitTimestampForPeriod entries, err = GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 7, len(entries)) // Check start and end content require.Equal(t, Entry{ payloadType: SimpleTransactionPT, transaction: &transfer.TransactionIdentity{ChainID: trs[2].ChainID, Hash: trs[2].Hash, Address: trs[2].To}, id: 0, timestamp: trs[2].Timestamp, activityType: ReceiveAT, activityStatus: FinalizedAS, tokenType: AssetTT, }, entries[0]) require.Equal(t, Entry{ payloadType: SimpleTransactionPT, transaction: &transfer.TransactionIdentity{ChainID: td.tr1.ChainID, Hash: td.tr1.Hash, Address: td.tr1.To}, id: 0, timestamp: td.tr1.Timestamp, activityType: ReceiveAT, activityStatus: FinalizedAS, tokenType: AssetTT, }, entries[6]) } func TestGetActivityEntriesCheckOffsetAndLimit(t *testing.T) { db, close := setupTestActivityDB(t) defer close() // Add 10 extractable transactions with timestamps 1-10 trs := transfer.GenerateTestTransactions(t, db, 1, 10) for i := range trs { transfer.InsertTestTransfer(t, db, &trs[i]) } var filter Filter // Get all entries, err := GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 5) require.NoError(t, err) require.Equal(t, 5, len(entries)) // Get time based interval filter.Period.StartTimestamp = trs[2].Timestamp filter.Period.EndTimestamp = trs[8].Timestamp entries, err = GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 3) require.NoError(t, err) require.Equal(t, 3, len(entries)) // Check start and end content require.Equal(t, Entry{ payloadType: SimpleTransactionPT, transaction: &transfer.TransactionIdentity{ChainID: trs[8].ChainID, Hash: trs[8].Hash, Address: trs[8].To}, id: 0, timestamp: trs[8].Timestamp, activityType: ReceiveAT, activityStatus: FinalizedAS, tokenType: AssetTT, }, entries[0]) require.Equal(t, Entry{ payloadType: SimpleTransactionPT, transaction: &transfer.TransactionIdentity{ChainID: trs[6].ChainID, Hash: trs[6].Hash, Address: trs[6].To}, id: 0, timestamp: trs[6].Timestamp, activityType: ReceiveAT, activityStatus: FinalizedAS, tokenType: AssetTT, }, entries[2]) // Move window 2 entries forward entries, err = GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 2, 3) require.NoError(t, err) require.Equal(t, 3, len(entries)) // Check start and end content require.Equal(t, Entry{ payloadType: SimpleTransactionPT, transaction: &transfer.TransactionIdentity{ChainID: trs[6].ChainID, Hash: trs[6].Hash, Address: trs[6].To}, id: 0, timestamp: trs[6].Timestamp, activityType: ReceiveAT, activityStatus: FinalizedAS, tokenType: AssetTT, }, entries[0]) require.Equal(t, Entry{ payloadType: SimpleTransactionPT, transaction: &transfer.TransactionIdentity{ChainID: trs[4].ChainID, Hash: trs[4].Hash, Address: trs[4].To}, id: 0, timestamp: trs[4].Timestamp, activityType: ReceiveAT, activityStatus: FinalizedAS, tokenType: AssetTT, }, entries[2]) // Move window 4 more entries to test filter cap entries, err = GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 6, 3) require.NoError(t, err) require.Equal(t, 1, len(entries)) // Check start and end content require.Equal(t, Entry{ payloadType: SimpleTransactionPT, transaction: &transfer.TransactionIdentity{ChainID: trs[2].ChainID, Hash: trs[2].Hash, Address: trs[2].To}, id: 0, timestamp: trs[2].Timestamp, activityType: ReceiveAT, activityStatus: FinalizedAS, tokenType: AssetTT, }, entries[0]) } func TestGetActivityEntriesFilterByType(t *testing.T) { db, close := setupTestActivityDB(t) defer close() // Adds 4 extractable transactions fillTestData(t, db) // Add 6 extractable transactions: one MultiTransactionSwap, two MultiTransactionBridge rest MultiTransactionSend trs := transfer.GenerateTestTransactions(t, db, 6, 6) trs[1].MultiTransactionType = transfer.MultiTransactionBridge trs[3].MultiTransactionType = transfer.MultiTransactionSwap trs[5].MultiTransactionType = transfer.MultiTransactionBridge for i := range trs { if trs[i].MultiTransactionType != transfer.MultiTransactionSend { transfer.InsertTestMultiTransaction(t, db, &trs[i]) } else { transfer.InsertTestTransfer(t, db, &trs[i]) } } // Test filtering out without address involved var filter Filter filter.Types = allActivityTypesFilter() entries, err := GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 10, len(entries)) filter.Types = []Type{SendAT, SwapAT} entries, err = GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 8, len(entries)) swapCount := 0 sendCount := 0 receiveCount := 0 for _, entry := range entries { if entry.activityType == SendAT { sendCount++ } if entry.activityType == ReceiveAT { receiveCount++ } if entry.activityType == SwapAT { swapCount++ } } require.Equal(t, 2, sendCount) require.Equal(t, 5, receiveCount) require.Equal(t, 1, swapCount) // Test filtering out with address involved filter.Types = []Type{BridgeAT, ReceiveAT} // Include one "to" from transfers to be detected as receive addresses := []eth_common.Address{trs[0].To, trs[1].To, trs[2].From, trs[3].From, trs[5].From} entries, err = GetActivityEntries(db, addresses, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 3, len(entries)) bridgeCount := 0 receiveCount = 0 for _, entry := range entries { if entry.activityType == BridgeAT { bridgeCount++ } if entry.activityType == ReceiveAT { receiveCount++ } } require.Equal(t, 2, bridgeCount) require.Equal(t, 1, receiveCount) } func TestGetActivityEntriesFilterByAddresses(t *testing.T) { db, close := setupTestActivityDB(t) defer close() // Adds 4 extractable transactions td := fillTestData(t, db) trs := transfer.GenerateTestTransactions(t, db, 7, 6) for i := range trs { transfer.InsertTestTransfer(t, db, &trs[i]) } var filter Filter addressesFilter := allAddressesFilter() entries, err := GetActivityEntries(db, addressesFilter, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 10, len(entries)) addressesFilter = []eth_common.Address{td.mTr.To, trs[1].From, trs[4].To} entries, err = GetActivityEntries(db, addressesFilter, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 3, len(entries)) require.Equal(t, Entry{ payloadType: SimpleTransactionPT, transaction: &transfer.TransactionIdentity{ChainID: trs[4].ChainID, Hash: trs[4].Hash, Address: trs[4].To}, id: 0, timestamp: trs[4].Timestamp, activityType: ReceiveAT, activityStatus: FinalizedAS, tokenType: AssetTT, }, entries[0]) require.Equal(t, Entry{ payloadType: SimpleTransactionPT, transaction: &transfer.TransactionIdentity{ChainID: trs[1].ChainID, Hash: trs[1].Hash, Address: trs[1].From}, id: 0, timestamp: trs[1].Timestamp, activityType: SendAT, activityStatus: FinalizedAS, tokenType: AssetTT, }, entries[1]) require.Equal(t, Entry{ payloadType: MultiTransactionPT, transaction: nil, id: td.mTrID, timestamp: td.mTr.Timestamp, activityType: SendAT, activityStatus: FinalizedAS, tokenType: AssetTT, }, entries[2]) } func TestGetActivityEntriesFilterByStatus(t *testing.T) { db, close := setupTestActivityDB(t) defer close() // Adds 4 extractable transactions fillTestData(t, db) // Add 6 extractable transactions trs := transfer.GenerateTestTransactions(t, db, 7, 6) for i := range trs { transfer.InsertTestTransfer(t, db, &trs[i]) } var filter Filter filter.Statuses = []Status{} entries, err := GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 10, len(entries)) filter.Statuses = allActivityStatusesFilter() entries, err = GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 10, len(entries)) // TODO: enabled and finish tests after extending DB with transaction status // // filter.Statuses = []Status{PendingAS} // entries, err = GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 15) // require.NoError(t, err) // require.Equal(t, 1, len(entries)) // filter.Statuses = []Status{FailedAS, CompleteAS} // entries, err = GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 15) // require.NoError(t, err) // require.Equal(t, 9, len(entries)) } func TestGetActivityEntriesFilterByTokenType(t *testing.T) { db, close := setupTestActivityDB(t) defer close() // Adds 4 extractable transactions 2 transactions ETH, one MT SNT to DAI and another MT ETH to SNT fillTestData(t, db) // Add 6 extractable transactions with USDC (only erc20 as type in DB) trs := transfer.GenerateTestTransactions(t, db, 7, 6) for i := range trs { trs[i].FromToken = "USDC" transfer.InsertTestTransfer(t, db, &trs[i]) } var filter Filter filter.Tokens = noAssetsFilter() entries, err := GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 0, len(entries)) filter.Tokens = allTokensFilter() entries, err = GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 10, len(entries)) // Regression when collectibles is nil filter.Tokens = Tokens{[]TokenCode{}, nil, []TokenType{}} entries, err = GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 10, len(entries)) filter.Tokens = Tokens{Assets: []TokenCode{"ETH"}, EnabledTypes: []TokenType{AssetTT}} entries, err = GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 3, len(entries)) // TODO: update tests after adding token type to transfers filter.Tokens = Tokens{Assets: []TokenCode{"USDC", "DAI"}, EnabledTypes: []TokenType{AssetTT}} entries, err = GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 1, len(entries)) // Regression when EnabledTypes ar empty filter.Tokens = Tokens{Assets: []TokenCode{"USDC", "DAI"}, EnabledTypes: []TokenType{}} entries, err = GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 1, len(entries)) } func TestGetActivityEntriesFilterByToAddresses(t *testing.T) { db, close := setupTestActivityDB(t) defer close() // Adds 4 extractable transactions td := fillTestData(t, db) // Add 6 extractable transactions trs := transfer.GenerateTestTransactions(t, db, 7, 6) for i := range trs { transfer.InsertTestTransfer(t, db, &trs[i]) } var filter Filter filter.CounterpartyAddresses = allAddressesFilter() entries, err := GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 10, len(entries)) filter.CounterpartyAddresses = []eth_common.Address{eth_common.HexToAddress("0x567890")} entries, err = GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 0, len(entries)) filter.CounterpartyAddresses = []eth_common.Address{td.pendingTr.To, td.mTr.To, trs[3].To} entries, err = GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 3, len(entries)) filter.CounterpartyAddresses = []eth_common.Address{td.tr1.To, td.pendingTr.From, trs[3].From, trs[5].To} entries, err = GetActivityEntries(db, []eth_common.Address{}, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 2, len(entries)) } func TestGetActivityEntriesFilterByNetworks(t *testing.T) { db, close := setupTestActivityDB(t) defer close() // Adds 4 extractable transactions td := fillTestData(t, db) // Add 6 extractable transactions trs := transfer.GenerateTestTransactions(t, db, 7, 6) for i := range trs { transfer.InsertTestTransfer(t, db, &trs[i]) } var filter Filter chainIDs := allNetworksFilter() entries, err := GetActivityEntries(db, []eth_common.Address{}, chainIDs, filter, 0, 15) require.NoError(t, err) require.Equal(t, 10, len(entries)) chainIDs = []common.ChainID{5674839210} entries, err = GetActivityEntries(db, []eth_common.Address{}, chainIDs, filter, 0, 15) require.NoError(t, err) // TODO: update after multi-transactions are filterable by ChainID require.Equal(t, 2 /*0*/, len(entries)) chainIDs = []common.ChainID{td.pendingTr.ChainID, td.mTr.ChainID, trs[3].ChainID} entries, err = GetActivityEntries(db, []eth_common.Address{}, chainIDs, filter, 0, 15) require.NoError(t, err) // TODO: update after multi-transactions are filterable by ChainID require.Equal(t, 4 /*3*/, len(entries)) } func TestGetActivityEntriesCheckToAndFrom(t *testing.T) { db, close := setupTestActivityDB(t) defer close() // Adds 6 transactions from which 4 are filered out td := fillTestData(t, db) // Add extra transactions to test To address trs := transfer.GenerateTestTransactions(t, db, 7, 2) transfer.InsertTestTransfer(t, db, &trs[0]) transfer.InsertTestPendingTransaction(t, db, &trs[1]) addresses := []eth_common.Address{td.tr1.From, td.pendingTr.From, td.singletonMTr.From, td.mTr.To, trs[0].To, trs[1].To} var filter Filter entries, err := GetActivityEntries(db, addresses, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 6, len(entries)) require.Equal(t, SendAT, entries[5].activityType) // td.tr1 require.NotEqual(t, eth.Address{}, entries[5].transaction.Address) // td.tr1 require.Equal(t, td.tr1.From, entries[5].transaction.Address) // td.tr1 require.Equal(t, SendAT, entries[4].activityType) // td.pendingTr // Multi-transactions are always considered as SendAT require.Equal(t, SendAT, entries[3].activityType) // td.singletonMTr require.Equal(t, SendAT, entries[2].activityType) // td.mTr require.Equal(t, ReceiveAT, entries[1].activityType) // trs[0] require.NotEqual(t, eth.Address{}, entries[1].transaction.Address) // trs[0] require.Equal(t, trs[0].To, entries[1].transaction.Address) // trs[0] require.Equal(t, ReceiveAT, entries[0].activityType) // trs[1] (pending) // TODO: add accounts to DB for proper detection of sender/receiver // TODO: Test with all addresses }