package activity import ( "context" "database/sql" "encoding/hex" "math/big" "testing" "time" "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" "github.com/status-im/status-go/t/helpers" "github.com/status-im/status-go/walletdatabase" eth "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/common/hexutil" "github.com/ethereum/go-ethereum/core/types" "github.com/stretchr/testify/require" ) var mockupTime = time.Unix(946724400, 0) // 2000-01-01 12:00:00 func tokenFromSymbol(chainID *common.ChainID, symbol string) *Token { for i, t := range transfer.TestTokens { if (chainID == nil || t.ChainID == uint64(*chainID)) && t.Symbol == symbol { tokenType := Erc20 if testutils.SliceContains(transfer.NativeTokenIndices, i) { tokenType = Native } return &Token{ TokenType: tokenType, ChainID: common.ChainID(t.ChainID), Address: t.Address, } } } return nil } func tokenFromCollectible(c *transfer.TestCollectible) Token { return Token{ TokenType: Erc721, ChainID: c.ChainID, Address: c.TokenAddress, TokenID: (*hexutil.Big)(c.TokenID), } } func setupTestActivityDBStorageChoice(tb testing.TB, inMemory bool) (deps FilterDependencies, close func()) { var db *sql.DB var err error cleanupDB := func() error { return nil } cleanupWalletDB := func() error { return nil } if inMemory { db, err = helpers.SetupTestMemorySQLDB(walletdatabase.DbInitializer{}) require.NoError(tb, err) } else { db, cleanupWalletDB, err = helpers.SetupTestSQLDB(walletdatabase.DbInitializer{}, "wallet-activity-tests") require.NoError(tb, err) } deps = FilterDependencies{ db: db, tokenSymbol: func(token Token) string { switch token.TokenType { case Native: for i, t := range transfer.TestTokens { if t.ChainID == uint64(token.ChainID) && testutils.SliceContains(transfer.NativeTokenIndices, i) { return t.Symbol } } case Erc20: for _, t := range transfer.TestTokens { if t.ChainID == uint64(token.ChainID) && t.Address == token.Address { return t.Symbol } } } // In case of ERC721 and ERC1155 we don't have a symbol and they are not yet handled return "" }, // tokenFromSymbol nil chainID accepts first symbol found tokenFromSymbol: tokenFromSymbol, currentTimestamp: func() int64 { return mockupTime.Unix() }, } return deps, func() { require.NoError(tb, cleanupDB()) require.NoError(tb, cleanupWalletDB()) } } func setupTestActivityDB(tb testing.TB) (deps FilterDependencies, close func()) { transfer.SetMultiTransactionIDGenerator(transfer.StaticIDCounter()) // to have different multi-transaction IDs even with fast execution return setupTestActivityDBStorageChoice(tb, true) } type testData struct { tr1 transfer.TestTransfer // index 1, ETH/Goerli pendingTr transfer.TestTransfer // index 2, ETH/Optimism multiTx1Tr1 transfer.TestTransfer // index 3, USDC/Mainnet multiTx2Tr1 transfer.TestTransfer // index 4, USDC/Goerli multiTx1Tr2 transfer.TestTransfer // index 5, USDC/Optimism multiTx2Tr2 transfer.TestTransfer // index 6, SNT/Mainnet multiTx2PendingTr transfer.TestTransfer // index 7, DAI/Mainnet multiTx1 transfer.MultiTransaction multiTx1ID common.MultiTransactionIDType multiTx2 transfer.MultiTransaction multiTx2ID common.MultiTransactionIDType nextIndex int } // Generates and adds to the DB 7 transfers and 2 multitransactions. // There are only 4 extractable activity entries (transactions + multi-transactions) with timestamps 1-4. The others are associated with a multi-transaction func fillTestData(t *testing.T, db *sql.DB) (td testData, fromAddresses, toAddresses []eth.Address) { // Generates ETH/Goerli, ETH/Optimism, USDC/Mainnet, USDC/Goerli, USDC/Optimism, SNT/Mainnet, DAI/Mainnet trs, fromAddresses, toAddresses := transfer.GenerateTestTransfers(t, db, 1, 7) // Plain transfer td.tr1 = trs[0] transfer.InsertTestTransfer(t, db, td.tr1.To, &td.tr1) // Pending transfer td.pendingTr = trs[1] transfer.InsertTestPendingTransaction(t, db, &td.pendingTr) // Send Multitransaction containing 2 x Plain transfers td.multiTx1Tr1 = trs[2] td.multiTx1Tr2 = trs[4] td.multiTx1 = transfer.GenerateTestSendMultiTransaction(td.multiTx1Tr1) td.multiTx1.ToAsset = testutils.DaiSymbol td.multiTx1ID = transfer.InsertTestMultiTransaction(t, db, &td.multiTx1) td.multiTx1Tr1.MultiTransactionID = td.multiTx1ID transfer.InsertTestTransfer(t, db, td.multiTx1Tr1.To, &td.multiTx1Tr1) td.multiTx1Tr2.MultiTransactionID = td.multiTx1ID transfer.InsertTestTransfer(t, db, td.multiTx1Tr2.To, &td.multiTx1Tr2) // Send Multitransaction containing 2 x Plain transfers + 1 x Pending transfer td.multiTx2Tr1 = trs[3] td.multiTx2Tr2 = trs[5] td.multiTx2PendingTr = trs[6] td.multiTx2 = transfer.GenerateTestSendMultiTransaction(td.multiTx2Tr1) td.multiTx2.ToAsset = testutils.SntSymbol td.multiTx2ID = transfer.InsertTestMultiTransaction(t, db, &td.multiTx2) td.multiTx2Tr1.MultiTransactionID = td.multiTx2ID transfer.InsertTestTransfer(t, db, td.multiTx2Tr1.To, &td.multiTx2Tr1) td.multiTx2Tr2.MultiTransactionID = td.multiTx2ID transfer.InsertTestTransfer(t, db, td.multiTx2Tr2.To, &td.multiTx2Tr2) td.multiTx2PendingTr.MultiTransactionID = td.multiTx2ID transfer.InsertTestPendingTransaction(t, db, &td.multiTx2PendingTr) td.nextIndex = 8 return td, fromAddresses, toAddresses } func TTrToToken(t *testing.T, tt *transfer.TestTransaction) *Token { token, isNative := transfer.TestTrToToken(t, tt) tokenType := Erc20 if isNative { tokenType = Native } return &Token{ TokenType: tokenType, ChainID: common.ChainID(token.ChainID), Address: token.Address, } } func expectedTokenType(tokenAddress eth.Address) *TransferType { transferType := new(TransferType) if (tokenAddress != eth.Address{}) { *transferType = TransferTypeErc20 } else { *transferType = TransferTypeEth } return transferType } func TestGetActivityEntriesAll(t *testing.T) { deps, close := setupTestActivityDB(t) defer close() td, fromAddresses, toAddresses := fillTestData(t, deps.db) var filter Filter entries, err := getActivityEntries(context.Background(), deps, append(toAddresses, fromAddresses...), true, []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.Equal(t, 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, amountOut: (*hexutil.Big)(big.NewInt(0)), amountIn: (*hexutil.Big)(big.NewInt(td.tr1.Value)), tokenOut: nil, tokenIn: TTrToToken(t, &td.tr1.TestTransaction), symbolOut: nil, symbolIn: common.NewAndSet("ETH"), sender: &td.tr1.From, recipient: &td.tr1.To, chainIDOut: nil, chainIDIn: &td.tr1.ChainID, transferType: expectedTokenType(td.tr1.Token.Address), }, entries[3]) require.Equal(t, Entry{ payloadType: PendingTransactionPT, transaction: &transfer.TransactionIdentity{ChainID: td.pendingTr.ChainID, Hash: td.pendingTr.Hash}, id: td.pendingTr.MultiTransactionID, timestamp: td.pendingTr.Timestamp, activityType: SendAT, activityStatus: PendingAS, amountOut: (*hexutil.Big)(big.NewInt(td.pendingTr.Value)), amountIn: (*hexutil.Big)(big.NewInt(0)), tokenOut: TTrToToken(t, &td.pendingTr.TestTransaction), tokenIn: nil, symbolOut: common.NewAndSet("ETH"), symbolIn: nil, sender: &td.pendingTr.From, recipient: &td.pendingTr.To, chainIDOut: &td.pendingTr.ChainID, chainIDIn: nil, transferType: expectedTokenType(eth.Address{}), }, entries[2]) require.Equal(t, Entry{ payloadType: MultiTransactionPT, transaction: nil, id: td.multiTx1ID, timestamp: int64(td.multiTx1.Timestamp), activityType: SendAT, activityStatus: FinalizedAS, amountOut: td.multiTx1.FromAmount, amountIn: td.multiTx1.ToAmount, tokenOut: tokenFromSymbol(nil, td.multiTx1.FromAsset), tokenIn: tokenFromSymbol(nil, td.multiTx1.ToAsset), symbolOut: common.NewAndSet("USDC"), symbolIn: common.NewAndSet("DAI"), sender: &td.multiTx1.FromAddress, recipient: &td.multiTx1.ToAddress, }, entries[1]) require.Equal(t, Entry{ payloadType: MultiTransactionPT, transaction: nil, id: td.multiTx2ID, timestamp: int64(td.multiTx2.Timestamp), activityType: SendAT, activityStatus: PendingAS, amountOut: td.multiTx2.FromAmount, amountIn: td.multiTx2.ToAmount, symbolOut: common.NewAndSet("USDC"), symbolIn: common.NewAndSet("SNT"), tokenOut: tokenFromSymbol(nil, td.multiTx2.FromAsset), tokenIn: tokenFromSymbol(nil, td.multiTx2.ToAsset), sender: &td.multiTx2.FromAddress, recipient: &td.multiTx2.ToAddress, }, entries[0]) } // TestGetActivityEntriesWithSenderFilter covers the corner-case of having both sender and receiver in the filter. // In this specific case we expect that there will be two transactions (one probably backed by a multi-transaction) // In case of both sender and receiver are included we validate we receive both entries otherwise only the "owned" // transactions should be retrieved by the filter func TestGetActivityEntriesWithSameTransactionForSenderAndReceiverInDB(t *testing.T) { deps, close := setupTestActivityDB(t) defer close() // Add 4 extractable transactions with timestamps 1-4 td, _, _ := fillTestData(t, deps.db) // Add another transaction with owner reversed senderTr := td.tr1 // Ensure we have a consistent order senderTr.Timestamp++ // add sender as owner, fillTestData adds receiver as owner transfer.InsertTestTransfer(t, deps.db, senderTr.From, &senderTr) var filter Filter entries, err := getActivityEntries(context.Background(), deps, []eth.Address{td.tr1.To, senderTr.From}, false, []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, SendAT, entries[0].activityType) require.Equal(t, senderTr.From, entries[0].transaction.Address) require.Equal(t, senderTr.From, *entries[0].sender) require.Equal(t, senderTr.To, *entries[0].recipient) require.Equal(t, ReceiveAT, entries[1].activityType) require.Equal(t, td.tr1.To, *entries[1].recipient) require.Equal(t, td.tr1.From, *entries[1].sender) require.Equal(t, td.tr1.To, *entries[1].recipient) } func TestGetActivityEntriesFilterByTime(t *testing.T) { deps, close := setupTestActivityDB(t) defer close() td, fromTds, toTds := fillTestData(t, deps.db) // Add 6 extractable transactions with timestamps 6-12 trs, fromTrs, toTrs := transfer.GenerateTestTransfers(t, deps.db, td.nextIndex, 6) for i := range trs { transfer.InsertTestTransfer(t, deps.db, trs[i].To, &trs[i]) } allAddresses := append(append(append(fromTds, toTds...), fromTrs...), toTrs...) // Test start only var filter Filter filter.Period.StartTimestamp = int64(td.multiTx1.Timestamp) filter.Period.EndTimestamp = NoLimitTimestampForPeriod entries, err := getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 8, len(entries)) const simpleTrIndex = 5 // Check start and end content require.Equal(t, Entry{ payloadType: SimpleTransactionPT, transaction: &transfer.TransactionIdentity{ChainID: trs[simpleTrIndex].ChainID, Hash: trs[simpleTrIndex].Hash, Address: trs[simpleTrIndex].To}, id: 0, timestamp: trs[simpleTrIndex].Timestamp, activityType: ReceiveAT, activityStatus: FinalizedAS, amountOut: (*hexutil.Big)(big.NewInt(0)), amountIn: (*hexutil.Big)(big.NewInt(trs[simpleTrIndex].Value)), tokenOut: nil, tokenIn: TTrToToken(t, &trs[simpleTrIndex].TestTransaction), symbolOut: nil, symbolIn: common.NewAndSet("USDC"), sender: &trs[simpleTrIndex].From, recipient: &trs[simpleTrIndex].To, chainIDOut: nil, chainIDIn: &trs[simpleTrIndex].ChainID, transferType: expectedTokenType(trs[simpleTrIndex].Token.Address), }, entries[0]) require.Equal(t, Entry{ payloadType: MultiTransactionPT, transaction: nil, id: td.multiTx1ID, timestamp: int64(td.multiTx1.Timestamp), activityType: SendAT, activityStatus: FinalizedAS, amountOut: td.multiTx1.FromAmount, amountIn: td.multiTx1.ToAmount, tokenOut: tokenFromSymbol(nil, td.multiTx1.FromAsset), tokenIn: tokenFromSymbol(nil, td.multiTx1.ToAsset), symbolOut: common.NewAndSet("USDC"), symbolIn: common.NewAndSet("DAI"), sender: &td.multiTx1.FromAddress, recipient: &td.multiTx1.ToAddress, chainIDOut: nil, chainIDIn: nil, transferType: nil, }, entries[7]) // Test complete interval filter.Period.EndTimestamp = trs[2].Timestamp entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []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, amountOut: (*hexutil.Big)(big.NewInt(0)), amountIn: (*hexutil.Big)(big.NewInt(trs[2].Value)), tokenOut: nil, tokenIn: TTrToToken(t, &trs[2].TestTransaction), symbolOut: nil, symbolIn: common.NewAndSet("ETH"), sender: &trs[2].From, recipient: &trs[2].To, chainIDOut: nil, chainIDIn: &trs[2].ChainID, transferType: expectedTokenType(trs[2].Token.Address), }, entries[0]) require.Equal(t, Entry{ payloadType: MultiTransactionPT, transaction: nil, id: td.multiTx1ID, timestamp: int64(td.multiTx1.Timestamp), activityType: SendAT, activityStatus: FinalizedAS, amountOut: td.multiTx1.FromAmount, amountIn: td.multiTx1.ToAmount, tokenOut: tokenFromSymbol(nil, td.multiTx1.FromAsset), tokenIn: tokenFromSymbol(nil, td.multiTx1.ToAsset), symbolOut: common.NewAndSet("USDC"), symbolIn: common.NewAndSet("DAI"), sender: &td.multiTx1.FromAddress, recipient: &td.multiTx1.ToAddress, chainIDOut: nil, chainIDIn: nil, transferType: nil, }, entries[4]) // Test end only filter.Period.StartTimestamp = NoLimitTimestampForPeriod entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []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, amountOut: (*hexutil.Big)(big.NewInt(0)), amountIn: (*hexutil.Big)(big.NewInt(trs[2].Value)), tokenOut: nil, tokenIn: TTrToToken(t, &trs[2].TestTransaction), symbolOut: nil, symbolIn: common.NewAndSet("ETH"), sender: &trs[2].From, recipient: &trs[2].To, chainIDOut: nil, chainIDIn: &trs[2].ChainID, transferType: expectedTokenType(trs[2].Token.Address), }, 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, amountOut: (*hexutil.Big)(big.NewInt(0)), amountIn: (*hexutil.Big)(big.NewInt(td.tr1.Value)), tokenOut: nil, tokenIn: TTrToToken(t, &td.tr1.TestTransaction), symbolOut: nil, symbolIn: common.NewAndSet("ETH"), sender: &td.tr1.From, recipient: &td.tr1.To, chainIDOut: nil, chainIDIn: &td.tr1.ChainID, transferType: expectedTokenType(td.tr1.Token.Address), }, entries[6]) } func TestGetActivityEntriesCheckOffsetAndLimit(t *testing.T) { deps, close := setupTestActivityDB(t) defer close() // Add 10 extractable transactions with timestamps 1-10 trs, fromTrs, toTrs := transfer.GenerateTestTransfers(t, deps.db, 1, 10) for i := range trs { transfer.InsertTestTransfer(t, deps.db, trs[i].To, &trs[i]) } allAddresses := append(fromTrs, toTrs...) var filter Filter // Get all entries, err := getActivityEntries(context.Background(), deps, allAddresses, true, []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(context.Background(), deps, allAddresses, true, []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, amountOut: (*hexutil.Big)(big.NewInt(0)), amountIn: (*hexutil.Big)(big.NewInt(trs[8].Value)), tokenOut: nil, tokenIn: TTrToToken(t, &trs[8].TestTransaction), symbolOut: nil, symbolIn: common.NewAndSet("ETH"), sender: &trs[8].From, recipient: &trs[8].To, chainIDOut: nil, chainIDIn: &trs[8].ChainID, transferType: expectedTokenType(trs[8].Token.Address), }, 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, amountOut: (*hexutil.Big)(big.NewInt(0)), amountIn: (*hexutil.Big)(big.NewInt(trs[6].Value)), tokenOut: nil, tokenIn: TTrToToken(t, &trs[6].TestTransaction), symbolOut: nil, symbolIn: common.NewAndSet("DAI"), sender: &trs[6].From, recipient: &trs[6].To, chainIDOut: nil, chainIDIn: &trs[6].ChainID, transferType: expectedTokenType(trs[6].Token.Address), }, entries[2]) // Move window 2 entries forward entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []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, amountOut: (*hexutil.Big)(big.NewInt(0)), amountIn: (*hexutil.Big)(big.NewInt(trs[6].Value)), tokenOut: nil, tokenIn: TTrToToken(t, &trs[6].TestTransaction), symbolOut: nil, symbolIn: common.NewAndSet("DAI"), sender: &trs[6].From, recipient: &trs[6].To, chainIDOut: nil, chainIDIn: &trs[6].ChainID, transferType: expectedTokenType(trs[6].Token.Address), }, 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, amountOut: (*hexutil.Big)(big.NewInt(0)), amountIn: (*hexutil.Big)(big.NewInt(trs[4].Value)), tokenOut: nil, tokenIn: TTrToToken(t, &trs[4].TestTransaction), symbolOut: nil, symbolIn: common.NewAndSet("USDC"), sender: &trs[4].From, recipient: &trs[4].To, chainIDOut: nil, chainIDIn: &trs[4].ChainID, transferType: expectedTokenType(trs[4].Token.Address), }, entries[2]) // Move window 4 more entries to test filter cap entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []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, amountOut: (*hexutil.Big)(big.NewInt(0)), amountIn: (*hexutil.Big)(big.NewInt(trs[2].Value)), tokenOut: nil, tokenIn: TTrToToken(t, &trs[2].TestTransaction), symbolOut: nil, symbolIn: common.NewAndSet("USDC"), sender: &trs[2].From, recipient: &trs[2].To, chainIDOut: nil, chainIDIn: &trs[2].ChainID, transferType: expectedTokenType(trs[2].Token.Address), }, entries[0]) } func countTypes(entries []Entry) (sendCount, receiveCount, contractCount, mintCount, swapCount, buyCount, bridgeCount, approveCount int) { for _, entry := range entries { switch entry.activityType { case SendAT: sendCount++ case ReceiveAT: receiveCount++ case SwapAT: swapCount++ case BuyAT: buyCount++ case BridgeAT: bridgeCount++ case ContractDeploymentAT: contractCount++ case MintAT: mintCount++ case ApproveAT: approveCount++ } } return } func TestGetActivityEntriesFilterByType(t *testing.T) { deps, close := setupTestActivityDB(t) defer close() // Adds 4 extractable transactions td, tdFromAdds, tdToAddrs := fillTestData(t, deps.db) // Add 6 extractable transactions: one MultiTransactionSwap, two MultiTransactionBridge, two MultiTransactionSend and one MultiTransactionApprove multiTxs := make([]transfer.MultiTransaction, 6) trs, fromAddrs, toAddrs := transfer.GenerateTestTransfers(t, deps.db, td.nextIndex, len(multiTxs)*2) multiTxs[0] = transfer.GenerateTestBridgeMultiTransaction(trs[0], trs[1]) multiTxs[1] = transfer.GenerateTestSwapMultiTransaction(trs[2], testutils.SntSymbol, 100) // trs[3] multiTxs[2] = transfer.GenerateTestSendMultiTransaction(trs[4]) // trs[5] multiTxs[3] = transfer.GenerateTestBridgeMultiTransaction(trs[6], trs[7]) multiTxs[4] = transfer.GenerateTestSendMultiTransaction(trs[8]) // trs[9] multiTxs[5] = transfer.GenerateTestApproveMultiTransaction(trs[10]) // trs[11] var lastMT common.MultiTransactionIDType for i := range trs { if i%2 == 0 { lastMT = transfer.InsertTestMultiTransaction(t, deps.db, &multiTxs[i/2]) } trs[i].MultiTransactionID = lastMT transfer.InsertTestTransfer(t, deps.db, trs[i].To, &trs[i]) } trsSpecial, fromSpecial, toSpecial := transfer.GenerateTestTransfers(t, deps.db, 100, 3) // Here not to include the modified To and From addresses allAddresses := append(append(append(append(append(tdFromAdds, tdToAddrs...), fromAddrs...), toAddrs...), fromSpecial...), toSpecial...) // Insert MintAT Collectible trsSpecial[0].From = eth.HexToAddress("0x0") transfer.InsertTestTransferWithOptions(t, deps.db, trsSpecial[0].To, &trsSpecial[0], &transfer.TestTransferOptions{ TokenAddress: eth.HexToAddress("0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb48"), TokenID: (big.NewInt(1318)), }) // Insert MintAT Token trsSpecial[1].From = eth.HexToAddress("0x0") inputMethod, err := hex.DecodeString("1b5ee6ae") require.NoError(t, err) transfer.InsertTestTransferWithOptions(t, deps.db, trsSpecial[1].To, &trsSpecial[1], &transfer.TestTransferOptions{ TokenAddress: eth.HexToAddress("0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb49"), Tx: transfer.GenerateTxField(inputMethod), }) // Insert ContractDeploymentAt trsSpecial[2].To = eth.HexToAddress("0x0") transfer.InsertTestTransferWithOptions(t, deps.db, trsSpecial[2].From, &trsSpecial[2], &transfer.TestTransferOptions{ NullifyAddresses: []eth.Address{trsSpecial[2].To}, }) // Test filtering out without address involved var filter Filter filter.Types = allActivityTypesFilter() // Set tr1 to Receive and pendingTr to Send; rest of two MT remain default Send addresses := []eth.Address{td.tr1.To, td.pendingTr.From, td.multiTx1.FromAddress, td.multiTx2.FromAddress, trs[0].From, trs[2].From, trs[4].From, trs[6].From, trs[8].From, trs[10].From, trsSpecial[0].To, trsSpecial[1].To, trsSpecial[2].From} entries, err := getActivityEntries(context.Background(), deps, addresses, false, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 13, len(entries)) filter.Types = []Type{SendAT, SwapAT} entries, err = getActivityEntries(context.Background(), deps, addresses, false, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) // 3 from td Send + 2 trs MT Send + 1 (swap) require.Equal(t, 6, len(entries)) sendCount, receiveCount, contractCount, mintCount, swapCount, _, bridgeCount, approveCount := countTypes(entries) require.Equal(t, 5, sendCount) require.Equal(t, 0, receiveCount) require.Equal(t, 0, contractCount) require.Equal(t, 0, mintCount) require.Equal(t, 1, swapCount) require.Equal(t, 0, bridgeCount) require.Equal(t, 0, approveCount) filter.Types = []Type{BridgeAT, ReceiveAT} entries, err = getActivityEntries(context.Background(), deps, addresses, false, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 3, len(entries)) sendCount, receiveCount, contractCount, mintCount, swapCount, _, bridgeCount, approveCount = countTypes(entries) require.Equal(t, 0, sendCount) require.Equal(t, 1, receiveCount) require.Equal(t, 0, contractCount) require.Equal(t, 0, mintCount) require.Equal(t, 0, swapCount) require.Equal(t, 2, bridgeCount) require.Equal(t, 0, approveCount) filter.Types = []Type{MintAT} entries, err = getActivityEntries(context.Background(), deps, addresses, false, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 2, len(entries)) sendCount, receiveCount, contractCount, mintCount, swapCount, _, bridgeCount, approveCount = countTypes(entries) require.Equal(t, 0, sendCount) require.Equal(t, 0, receiveCount) require.Equal(t, 0, contractCount) require.Equal(t, 2, mintCount) require.Equal(t, 0, swapCount) require.Equal(t, 0, bridgeCount) require.Equal(t, 0, approveCount) filter.Types = []Type{ContractDeploymentAT} entries, err = getActivityEntries(context.Background(), deps, addresses, false, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 1, len(entries)) sendCount, receiveCount, contractCount, mintCount, swapCount, _, bridgeCount, approveCount = countTypes(entries) require.Equal(t, 0, sendCount) require.Equal(t, 0, receiveCount) require.Equal(t, 1, contractCount) require.Equal(t, 0, mintCount) require.Equal(t, 0, swapCount) require.Equal(t, 0, bridgeCount) require.Equal(t, 0, approveCount) filter.Types = []Type{ApproveAT} entries, err = getActivityEntries(context.Background(), deps, addresses, false, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 1, len(entries)) sendCount, receiveCount, contractCount, mintCount, swapCount, _, bridgeCount, approveCount = countTypes(entries) require.Equal(t, 0, sendCount) require.Equal(t, 0, receiveCount) require.Equal(t, 0, contractCount) require.Equal(t, 0, mintCount) require.Equal(t, 0, swapCount) require.Equal(t, 0, bridgeCount) require.Equal(t, 1, approveCount) // Filter with all addresses regression filter.Types = []Type{SendAT} entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) // We have 6 but one is not matched because is a receive, having owner the to address require.Equal(t, 5, len(entries)) } func TestStatusMintCustomEvent(t *testing.T) { deps, close := setupTestActivityDB(t) defer close() td, fromTds, toTds := fillTestData(t, deps.db) trs, fromTrs, toTrs := transfer.GenerateTestTransfers(t, deps.db, td.nextIndex, 3) allAddresses := append(append(append(fromTds, toTds...), fromTrs...), toTrs...) trs[0].From = eth.HexToAddress("0x0") transfer.InsertTestTransferWithOptions(t, deps.db, trs[0].To, &trs[0], &transfer.TestTransferOptions{ TokenAddress: eth.HexToAddress("0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb48"), Receipt: &types.Receipt{ Logs: []*types.Log{ {Topics: []eth.Hash{eth.HexToHash("0xea667487ed28493de38fd2808b00affaee21d875a9e95aa01ef8352151292297")}}, {Topics: []eth.Hash{eth.HexToHash("0x8c5be1e5ebec7d5bd14f71427d1e84f3dd0314c0f7b2291e5b200ac8c7c3b925")}}, }, }, }) // StatusMint - 0x28c427b0611d99da5c4f7368abe57e86b045b483c4689ae93e90745802335b87 trs[1].From = eth.HexToAddress("0x0") transfer.InsertTestTransferWithOptions(t, deps.db, trs[1].To, &trs[1], &transfer.TestTransferOptions{ TokenAddress: eth.HexToAddress("0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb49"), Receipt: &types.Receipt{ Logs: []*types.Log{ {Topics: []eth.Hash{eth.HexToHash("0x8c5be1e5ebec7d5bd14f71427d1e84f3dd0314c0f7b2291e5b200ac8c7c3b925")}}, {Topics: []eth.Hash{eth.HexToHash("0x28c427b0611d99da5c4f7368abe57e86b045b483c4689ae93e90745802335b87")}}, }, }, }) // Log order should not matter trs[2].From = eth.HexToAddress("0x0") transfer.InsertTestTransferWithOptions(t, deps.db, trs[2].To, &trs[2], &transfer.TestTransferOptions{ TokenAddress: eth.HexToAddress("0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb49"), Receipt: &types.Receipt{ Logs: []*types.Log{ {Topics: []eth.Hash{eth.HexToHash("0xddf252ad1be2c89b69c2b068fc378daa952ba7f163c4a11628f55a4df523b3ef")}}, {Topics: []eth.Hash{eth.HexToHash("0x28c427b0611d99da5c4f7368abe57e86b045b483c4689ae93e90745802335b87")}}, {Topics: []eth.Hash{eth.HexToHash("0x8c5be1e5ebec7d5bd14f71427d1e84f3dd0314c0f7b2291e5b200ac8c7c3b925")}}, }, }, }) var filter Filter entries, err := getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 7, len(entries)) filter.Types = []Type{MintAT} entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 2, len(entries)) require.Equal(t, trs[2].Hash, entries[0].transaction.Hash) require.Equal(t, trs[1].Hash, entries[1].transaction.Hash) } func TestGetActivityEntriesFilterByAddresses(t *testing.T) { deps, close := setupTestActivityDB(t) defer close() // Adds 4 extractable transactions td, fromTds, toTds := fillTestData(t, deps.db) trs, fromTrs, toTrs := transfer.GenerateTestTransfers(t, deps.db, td.nextIndex, 6) for i := range trs { transfer.InsertTestTransfer(t, deps.db, trs[i].From, &trs[i]) } allAddresses := append(append(append(fromTds, toTds...), fromTrs...), toTrs...) var filter Filter entries, err := getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 10, len(entries)) addressesFilter := []eth.Address{td.multiTx1.ToAddress, td.multiTx2.FromAddress, trs[1].From, trs[4].From, trs[3].To} // The td.multiTx1.ToAddress and trs[3].To are missing not having them as owner address entries, err = getActivityEntries(context.Background(), deps, addressesFilter, false, []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].From}, id: 0, timestamp: trs[4].Timestamp, activityType: SendAT, activityStatus: FinalizedAS, amountOut: (*hexutil.Big)(big.NewInt(trs[4].Value)), amountIn: (*hexutil.Big)(big.NewInt(0)), tokenOut: TTrToToken(t, &trs[4].TestTransaction), tokenIn: nil, symbolOut: common.NewAndSet("USDC"), symbolIn: nil, sender: &trs[4].From, recipient: &trs[4].To, chainIDOut: &trs[4].ChainID, chainIDIn: nil, transferType: expectedTokenType(trs[4].Token.Address), }, 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, amountOut: (*hexutil.Big)(big.NewInt(trs[1].Value)), amountIn: (*hexutil.Big)(big.NewInt(0)), tokenOut: TTrToToken(t, &trs[1].TestTransaction), tokenIn: nil, symbolOut: common.NewAndSet("ETH"), symbolIn: nil, sender: &trs[1].From, recipient: &trs[1].To, chainIDOut: &trs[1].ChainID, chainIDIn: nil, transferType: expectedTokenType(trs[1].Token.Address), }, entries[1]) require.Equal(t, Entry{ payloadType: MultiTransactionPT, transaction: nil, id: td.multiTx2ID, timestamp: int64(td.multiTx2.Timestamp), activityType: SendAT, activityStatus: PendingAS, amountOut: td.multiTx2.FromAmount, amountIn: td.multiTx2.ToAmount, tokenOut: tokenFromSymbol(nil, td.multiTx2.FromAsset), tokenIn: tokenFromSymbol(nil, td.multiTx2.ToAsset), symbolOut: common.NewAndSet("USDC"), symbolIn: common.NewAndSet("SNT"), sender: &td.multiTx2.FromAddress, recipient: &td.multiTx2.ToAddress, chainIDOut: nil, chainIDIn: nil, }, entries[2]) } func TestGetActivityEntriesFilterByStatus(t *testing.T) { deps, close := setupTestActivityDB(t) defer close() // Adds 4 extractable transactions: 1 T, 1 T pending, 1 MT pending, 1 MT with 2xT finalized td, fromTds, toTds := fillTestData(t, deps.db) // Add 7 extractable transactions: 1 pending, 1 Tr failed, 1 MT failed, 4 finalized trs, fromTrs, toTrs := transfer.GenerateTestTransfers(t, deps.db, td.nextIndex, 7) multiTx := transfer.GenerateTestSendMultiTransaction(trs[6]) failedMTID := transfer.InsertTestMultiTransaction(t, deps.db, &multiTx) trs[6].MultiTransactionID = failedMTID for i := range trs { if i == 1 { transfer.InsertTestPendingTransaction(t, deps.db, &trs[i]) } else { trs[i].Success = i != 3 && i != 6 if trs[i].Success && (i == 2 || i == 5) { // Finalize status depends on timestamp trs[i].Timestamp = mockupTime.Unix() - 10 } transfer.InsertTestTransfer(t, deps.db, trs[i].To, &trs[i]) } } allAddresses := append(append(append(fromTds, toTds...), fromTrs...), toTrs...) var filter Filter filter.Statuses = allActivityStatusesFilter() entries, err := getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 11, len(entries)) filter.Statuses = []Status{PendingAS} entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 3, len(entries)) require.Equal(t, td.pendingTr.Hash, entries[2].transaction.Hash) require.Equal(t, td.multiTx2ID, entries[1].id) require.Equal(t, trs[1].Hash, entries[0].transaction.Hash) filter.Statuses = []Status{FailedAS} entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 2, len(entries)) filter.Statuses = []Status{CompleteAS} entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 2, len(entries)) filter.Statuses = []Status{FinalizedAS} entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 4, len(entries)) // Combined filter filter.Statuses = []Status{FailedAS, PendingAS} entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 5, len(entries)) } func TestGetActivityEntriesFilterByTokenType(t *testing.T) { deps, close := setupTestActivityDB(t) defer close() // Adds 4 extractable transactions 2 transactions (ETH/Goerli, ETH/Optimism), one MT USDC to DAI and another MT USDC to SNT td, fromTds, toTds := fillTestData(t, deps.db) // Add 9 transactions DAI/Goerli, ETH/Mainnet, ETH/Goerli, ETH/Optimism, USDC/Mainnet, USDC/Goerli, USDC/Optimism, SNT/Mainnet, DAI/Mainnet trs, fromTrs, toTrs := transfer.GenerateTestTransfers(t, deps.db, td.nextIndex, 9) for i := range trs { tokenAddr := transfer.TestTokens[i].Address trs[i].ChainID = common.ChainID(transfer.TestTokens[i].ChainID) transfer.InsertTestTransferWithOptions(t, deps.db, trs[i].To, &trs[i], &transfer.TestTransferOptions{ TokenAddress: tokenAddr, }) } allAddresses := append(append(append(fromTds, toTds...), fromTrs...), toTrs...) var filter Filter filter.FilterOutAssets = true entries, err := getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 0, len(entries)) filter.FilterOutAssets = false filter.Assets = allTokensFilter() entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 13, len(entries)) // Native tokens are network agnostic, hence all are returned filter.Assets = []Token{{TokenType: Native, ChainID: common.ChainID(transfer.EthMainnet.ChainID)}} entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 5, len(entries)) // Test that it doesn't break the filter filter.Assets = []Token{{TokenType: Erc1155}} entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 0, len(entries)) filter.Assets = []Token{{ TokenType: Erc20, ChainID: common.ChainID(transfer.UsdcMainnet.ChainID), Address: transfer.UsdcMainnet.Address, }} entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) // Two MT for which ChainID is ignored and one transfer on the main net and the Goerli is ignored require.Equal(t, 3, len(entries)) require.Equal(t, Erc20, entries[0].tokenIn.TokenType) require.Equal(t, transfer.UsdcMainnet.Address, entries[0].tokenIn.Address) require.Nil(t, entries[0].tokenOut) // MT has only symbol, the first token is lookup by symbol for both entries require.Equal(t, Erc20, entries[1].tokenOut.TokenType) require.Equal(t, transfer.UsdcMainnet.Address, entries[1].tokenOut.Address) require.Equal(t, Erc20, entries[1].tokenIn.TokenType) require.Equal(t, transfer.SntMainnet.Address, entries[1].tokenIn.Address) require.Equal(t, Erc20, entries[2].tokenOut.TokenType) require.Equal(t, transfer.UsdcMainnet.Address, entries[1].tokenOut.Address) require.Equal(t, Erc20, entries[2].tokenIn.TokenType) require.Equal(t, transfer.UsdcMainnet.Address, entries[1].tokenOut.Address) filter.Assets = []Token{{ TokenType: Erc20, ChainID: common.ChainID(transfer.UsdcMainnet.ChainID), Address: transfer.UsdcMainnet.Address, }, { TokenType: Erc20, ChainID: common.ChainID(transfer.UsdcGoerli.ChainID), Address: transfer.UsdcGoerli.Address, }} entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) // Two MT for which ChainID is ignored and two transfers on the main net and Goerli require.Equal(t, 4, len(entries)) require.Equal(t, Erc20, entries[0].tokenIn.TokenType) require.Equal(t, transfer.UsdcGoerli.Address, entries[0].tokenIn.Address) require.Nil(t, entries[0].tokenOut) } func TestGetActivityEntriesFilterByCollectibles(t *testing.T) { deps, close := setupTestActivityDB(t) defer close() // Adds 4 extractable transactions 2 transactions (ETH/Goerli, ETH/Optimism), one MT USDC to DAI and another MT USDC to SNT td, fromTds, toTds := fillTestData(t, deps.db) // Add 4 transactions with collectibles trs, fromTrs, toTrs := transfer.GenerateTestTransfers(t, deps.db, td.nextIndex, 4) for i := range trs { collectibleData := transfer.TestCollectibles[i] trs[i].ChainID = collectibleData.ChainID transfer.InsertTestTransferWithOptions(t, deps.db, trs[i].To, &trs[i], &transfer.TestTransferOptions{ TokenAddress: collectibleData.TokenAddress, TokenID: collectibleData.TokenID, }) } allAddresses := append(append(append(fromTds, toTds...), fromTrs...), toTrs...) var filter Filter filter.FilterOutCollectibles = true entries, err := getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 0, len(entries)) filter.FilterOutCollectibles = false filter.Collectibles = allTokensFilter() entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 8, len(entries)) // Search for a specific collectible filter.Collectibles = []Token{tokenFromCollectible(&transfer.TestCollectibles[0])} entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 1, len(entries)) require.Equal(t, entries[0].tokenIn.Address, transfer.TestCollectibles[0].TokenAddress) require.Equal(t, entries[0].tokenIn.TokenID, (*hexutil.Big)(transfer.TestCollectibles[0].TokenID)) // Search for a specific collectible filter.Collectibles = []Token{tokenFromCollectible(&transfer.TestCollectibles[3])} entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 1, len(entries)) require.Equal(t, entries[0].tokenIn.Address, transfer.TestCollectibles[3].TokenAddress) require.Equal(t, entries[0].tokenIn.TokenID, (*hexutil.Big)(transfer.TestCollectibles[3].TokenID)) // Search for a multiple collectibles filter.Collectibles = []Token{tokenFromCollectible(&transfer.TestCollectibles[1]), tokenFromCollectible(&transfer.TestCollectibles[2])} entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 2, len(entries)) require.Equal(t, entries[0].tokenIn.Address, transfer.TestCollectibles[2].TokenAddress) require.True(t, (*big.Int)(entries[0].tokenIn.TokenID).Cmp(transfer.TestCollectibles[2].TokenID) == 0) require.Equal(t, entries[1].tokenIn.Address, transfer.TestCollectibles[1].TokenAddress) require.True(t, (*big.Int)(entries[1].tokenIn.TokenID).Cmp(transfer.TestCollectibles[1].TokenID) == 0) } func TestGetActivityEntriesFilterByToAddresses(t *testing.T) { deps, close := setupTestActivityDB(t) defer close() // Adds 4 extractable transactions td, fromTds, toTds := fillTestData(t, deps.db) // Add 6 extractable transactions trs, fromTrs, toTrs := transfer.GenerateTestTransfers(t, deps.db, td.nextIndex, 6) for i := range trs { transfer.InsertTestTransfer(t, deps.db, trs[i].To, &trs[i]) } allAddresses := append(append(append(fromTds, toTds...), fromTrs...), toTrs...) var filter Filter filter.CounterpartyAddresses = allAddresses entries, err := getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 10, len(entries)) filter.CounterpartyAddresses = []eth.Address{eth.HexToAddress("0x567890")} entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 0, len(entries)) filter.CounterpartyAddresses = []eth.Address{td.pendingTr.To, td.multiTx2.ToAddress, trs[3].To} entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 3, len(entries)) filter.CounterpartyAddresses = []eth.Address{td.tr1.To, td.pendingTr.From, trs[3].From, trs[5].To} entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 2, len(entries)) } func TestGetActivityEntriesFilterByNetworks(t *testing.T) { deps, close := setupTestActivityDB(t) defer close() // Adds 4 extractable transactions td, fromTds, toTds := fillTestData(t, deps.db) chainToEntryCount := make(map[common.ChainID]map[int]int) recordPresence := func(chainID common.ChainID, entry int) { if _, ok := chainToEntryCount[chainID]; !ok { chainToEntryCount[chainID] = make(map[int]int) chainToEntryCount[chainID][entry] = 1 } else { if _, ok := chainToEntryCount[chainID][entry]; !ok { chainToEntryCount[chainID][entry] = 1 } else { chainToEntryCount[chainID][entry]++ } } } recordPresence(td.tr1.ChainID, 0) recordPresence(td.pendingTr.ChainID, 1) recordPresence(td.multiTx1Tr1.ChainID, 2) if td.multiTx1Tr2.ChainID != td.multiTx1Tr1.ChainID { recordPresence(td.multiTx1Tr2.ChainID, 2) } recordPresence(td.multiTx2Tr1.ChainID, 3) if td.multiTx2Tr2.ChainID != td.multiTx2Tr1.ChainID { recordPresence(td.multiTx2Tr2.ChainID, 3) } if td.multiTx2PendingTr.ChainID != td.multiTx2Tr1.ChainID && td.multiTx2PendingTr.ChainID != td.multiTx2Tr2.ChainID { recordPresence(td.multiTx2PendingTr.ChainID, 3) } // Add 6 extractable transactions trs, fromTrs, toTrs := transfer.GenerateTestTransfers(t, deps.db, td.nextIndex, 6) for i := range trs { recordPresence(trs[i].ChainID, 4+i) transfer.InsertTestTransfer(t, deps.db, trs[i].To, &trs[i]) } allAddresses := append(append(append(fromTds, toTds...), fromTrs...), toTrs...) var filter Filter chainIDs := allNetworksFilter() entries, err := getActivityEntries(context.Background(), deps, allAddresses, true, chainIDs, filter, 0, 15) require.NoError(t, err) require.Equal(t, 10, len(entries)) chainIDs = []common.ChainID{5674839210} entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, chainIDs, filter, 0, 15) require.NoError(t, err) require.Equal(t, 0, len(entries)) chainIDs = []common.ChainID{td.pendingTr.ChainID, td.multiTx2Tr1.ChainID, trs[3].ChainID} entries, err = getActivityEntries(context.Background(), deps, allAddresses, true, chainIDs, filter, 0, 15) require.NoError(t, err) expectedResults := make(map[int]int) for _, chainID := range chainIDs { for entry := range chainToEntryCount[chainID] { if _, ok := expectedResults[entry]; !ok { expectedResults[entry]++ } } } require.Equal(t, len(expectedResults), len(entries)) } func TestGetActivityEntriesFilterByNetworksOfSubTransactions(t *testing.T) { deps, close := setupTestActivityDB(t) defer close() // Add 6 extractable transactions trs, _, toTrs := transfer.GenerateTestTransfers(t, deps.db, 0, 5) trs[0].ChainID = 1231 trs[1].ChainID = 1232 trs[2].ChainID = 1233 mt1 := transfer.GenerateTestBridgeMultiTransaction(trs[0], trs[1]) trs[0].MultiTransactionID = transfer.InsertTestMultiTransaction(t, deps.db, &mt1) trs[1].MultiTransactionID = mt1.ID trs[2].MultiTransactionID = mt1.ID trs[3].ChainID = 1234 mt2 := transfer.GenerateTestSwapMultiTransaction(trs[3], testutils.SntSymbol, 100) // insertMultiTransaction will insert 0 instead of NULL mt2.FromNetworkID = 0 mt2.ToNetworkID = 0 trs[3].MultiTransactionID = transfer.InsertTestMultiTransaction(t, deps.db, &mt2) for i := range trs { if i == 2 { transfer.InsertTestPendingTransaction(t, deps.db, &trs[i]) } else { transfer.InsertTestTransfer(t, deps.db, trs[i].To, &trs[i]) } } var filter Filter chainIDs := allNetworksFilter() entries, err := getActivityEntries(context.Background(), deps, toTrs, false, chainIDs, filter, 0, 15) require.NoError(t, err) require.Equal(t, 3, len(entries)) chainIDs = []common.ChainID{trs[0].ChainID, trs[1].ChainID} entries, err = getActivityEntries(context.Background(), deps, toTrs, false, chainIDs, filter, 0, 15) require.NoError(t, err) require.Equal(t, 1, len(entries)) require.Equal(t, entries[0].id, mt1.ID) // Filter by pending_transactions sub-transacitons chainIDs = []common.ChainID{trs[2].ChainID} entries, err = getActivityEntries(context.Background(), deps, toTrs, false, chainIDs, filter, 0, 15) require.NoError(t, err) require.Equal(t, 1, len(entries)) require.Equal(t, entries[0].id, mt1.ID) chainIDs = []common.ChainID{trs[3].ChainID} entries, err = getActivityEntries(context.Background(), deps, toTrs, false, chainIDs, filter, 0, 15) require.NoError(t, err) require.Equal(t, 1, len(entries)) require.Equal(t, entries[0].id, mt2.ID) } func TestGetActivityEntriesCheckToAndFrom(t *testing.T) { deps, close := setupTestActivityDB(t) defer close() // Adds 6 transactions from which 4 are filtered out td, _, _ := fillTestData(t, deps.db) // Add extra transactions to test To address trs, _, _ := transfer.GenerateTestTransfers(t, deps.db, td.nextIndex, 2) transfer.InsertTestTransfer(t, deps.db, trs[0].To, &trs[0]) transfer.InsertTestPendingTransaction(t, deps.db, &trs[1]) addresses := []eth.Address{td.tr1.To, td.pendingTr.To, td.multiTx1.FromAddress, td.multiTx2.FromAddress, trs[0].To, trs[1].To} var filter Filter entries, err := getActivityEntries(context.Background(), deps, addresses, false, []common.ChainID{}, filter, 0, 15) require.NoError(t, err) require.Equal(t, 6, len(entries)) require.Equal(t, ReceiveAT, entries[5].activityType) // td.tr1 require.NotEqual(t, eth.Address{}, entries[5].transaction.Address) // td.tr1 require.Equal(t, td.tr1.To, *entries[5].recipient) // td.tr1 require.Equal(t, ReceiveAT, entries[4].activityType) // td.pendingTr // Multi-transactions are always considered as SendAT require.Equal(t, SendAT, entries[3].activityType) // td.multiTx1 require.Equal(t, SendAT, entries[2].activityType) // td.multiTx2 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) } func TestGetActivityEntriesCheckContextCancellation(t *testing.T) { deps, close := setupTestActivityDB(t) defer close() _, fromAddresses, toAddresses := fillTestData(t, deps.db) cancellableCtx, cancelFn := context.WithCancel(context.Background()) cancelFn() activities, err := getActivityEntries(cancellableCtx, deps, append(fromAddresses, toAddresses...), true, []common.ChainID{}, Filter{}, 0, 10) require.ErrorIs(t, err, context.Canceled) require.Equal(t, 0, len(activities)) } func TestGetActivityEntriesNullAddresses(t *testing.T) { deps, close := setupTestActivityDB(t) defer close() trs, _, _ := transfer.GenerateTestTransfers(t, deps.db, 0, 4) multiTx := transfer.GenerateTestBridgeMultiTransaction(trs[0], trs[1]) multiTx.ToAddress = eth.Address{} trs[0].MultiTransactionID = transfer.InsertTestMultiTransaction(t, deps.db, &multiTx) trs[1].MultiTransactionID = trs[0].MultiTransactionID for i := 0; i < 3; i++ { transfer.InsertTestTransferWithOptions(t, deps.db, trs[i].From, &trs[i], &transfer.TestTransferOptions{ NullifyAddresses: []eth.Address{trs[i].To}, }) } trs[3].To = eth.Address{} transfer.InsertTestPendingTransaction(t, deps.db, &trs[3]) addresses := []eth.Address{trs[0].From, trs[1].From, trs[2].From, trs[3].From} activities, err := getActivityEntries(context.Background(), deps, addresses, false, allNetworksFilter(), Filter{}, 0, 10) require.NoError(t, err) require.Equal(t, 3, len(activities)) } func TestGetActivityEntries_ErrorIfNoAddress(t *testing.T) { _, err := getActivityEntries(context.Background(), FilterDependencies{}, []eth.Address{}, true, []common.ChainID{}, Filter{}, 0, 10) require.EqualError(t, err, "no addresses provided") } func TestGetTxDetails(t *testing.T) { deps, close := setupTestActivityDB(t) defer close() // Adds 4 extractable transactions 2 transactions (ETH/Goerli, ETH/Optimism), one MT USDC to DAI and another MT USDC to SNT td, _, _ := fillTestData(t, deps.db) _, err := getTxDetails(context.Background(), deps.db, "") require.EqualError(t, err, "invalid tx id") details, err := getTxDetails(context.Background(), deps.db, td.tr1.Hash.String()) require.NoError(t, err) require.Equal(t, td.tr1.Hash.String(), details.ID) require.Equal(t, 0, details.MultiTxID) require.Equal(t, td.tr1.Nonce, details.Nonce) require.Equal(t, len(details.ChainDetails), 1) require.Equal(t, td.tr1.ChainID, common.ChainID(details.ChainDetails[0].ChainID)) require.Equal(t, td.tr1.BlkNumber, details.ChainDetails[0].BlockNumber) require.Equal(t, td.tr1.Hash, details.ChainDetails[0].Hash) require.Equal(t, td.tr1.Contract, *details.ChainDetails[0].Contract) } func TestGetMultiTxDetails(t *testing.T) { deps, close := setupTestActivityDB(t) defer close() // Adds 4 extractable transactions 2 transactions (ETH/Goerli, ETH/Optimism), one MT USDC to DAI and another MT USDC to SNT td, _, _ := fillTestData(t, deps.db) _, err := getMultiTxDetails(context.Background(), deps.db, 0) require.EqualError(t, err, "invalid tx id") details, err := getMultiTxDetails(context.Background(), deps.db, int(td.multiTx1.ID)) require.NoError(t, err) require.Equal(t, "", details.ID) require.Equal(t, int(td.multiTx1.ID), details.MultiTxID) require.Equal(t, td.multiTx1Tr2.Nonce, details.Nonce) require.Equal(t, 2, len(details.ChainDetails)) require.Equal(t, td.multiTx1Tr1.ChainID, common.ChainID(details.ChainDetails[0].ChainID)) require.Equal(t, td.multiTx1Tr1.BlkNumber, details.ChainDetails[0].BlockNumber) require.Equal(t, td.multiTx1Tr1.Hash, details.ChainDetails[0].Hash) require.Equal(t, td.multiTx1Tr1.Contract, *details.ChainDetails[0].Contract) require.Equal(t, td.multiTx1Tr2.ChainID, common.ChainID(details.ChainDetails[1].ChainID)) require.Equal(t, td.multiTx1Tr2.BlkNumber, details.ChainDetails[1].BlockNumber) require.Equal(t, td.multiTx1Tr2.Hash, details.ChainDetails[1].Hash) require.Equal(t, td.multiTx1Tr2.Contract, *details.ChainDetails[1].Contract) } func TestGetActivityEntriesSkipEthGasFeeOnlyTransfers(t *testing.T) { deps, close := setupTestActivityDB(t) defer close() to := eth.Address{0x1} from := eth.Address{0x2} hash := eth.Hash{0x3} blkNum := int64(1) chainID := common.ChainID(1) nonce := uint64(1) // Insert 0-value gas-only ETH transfer as a result of token transfer's gas fee transfer.InsertTestTransfer(t, deps.db, to, &transfer.TestTransfer{ TestTransaction: transfer.TestTransaction{ ChainID: chainID, From: from, Hash: hash, BlkNumber: blkNum, Nonce: nonce, }, To: to, Value: 0, }) entries, err := getActivityEntries(context.Background(), deps, []eth.Address{to}, true, []common.ChainID{chainID}, Filter{}, 0, 10) require.NoError(t, err) require.Equal(t, 1, len(entries)) require.Equal(t, hash, entries[0].transaction.Hash) // Insert token transfer transfer.InsertTestTransferWithOptions(t, deps.db, to, &transfer.TestTransfer{ TestTransaction: transfer.TestTransaction{ ChainID: chainID, From: from, Hash: hash, BlkNumber: blkNum, Nonce: nonce, }, To: to, Value: 1, }, &transfer.TestTransferOptions{ TokenAddress: eth.Address{0x4}, }, ) // Gas-fee-only transfer should be removed, so we get only 1 transfer again entries, err = getActivityEntries(context.Background(), deps, []eth.Address{to}, true, []common.ChainID{chainID}, Filter{}, 0, 10) require.NoError(t, err) require.Equal(t, 1, len(entries)) require.Equal(t, contractTypeFromDBType("erc20"), entries[0].transferType) // Insert real 0-value ETH transfer transfer.InsertTestTransfer(t, deps.db, to, &transfer.TestTransfer{ TestTransaction: transfer.TestTransaction{ ChainID: chainID, From: from, Hash: eth.Hash{0x5}, // another hash BlkNumber: blkNum, Nonce: nonce + 1, // another nonce }, To: to, Value: 0, // 0-value as well }) entries, err = getActivityEntries(context.Background(), deps, []eth.Address{to}, true, []common.ChainID{chainID}, Filter{}, 0, 10) require.NoError(t, err) require.Equal(t, 2, len(entries)) }