package transfer import ( "database/sql" "fmt" "math/big" "testing" eth_common "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/common/hexutil" "github.com/ethereum/go-ethereum/core/types" "github.com/status-im/status-go/services/wallet/common" w_common "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/token" "github.com/stretchr/testify/require" ) type TestTransaction struct { Hash eth_common.Hash ChainID common.ChainID From eth_common.Address // [sender] Timestamp int64 BlkNumber int64 Success bool Nonce uint64 Contract eth_common.Address MultiTransactionID MultiTransactionIDType } type TestTransfer struct { TestTransaction To eth_common.Address // [address] Value int64 Token *token.Token } type TestMultiTransaction struct { MultiTransactionID MultiTransactionIDType MultiTransactionType MultiTransactionType FromAddress eth_common.Address ToAddress eth_common.Address FromToken string ToToken string FromAmount int64 ToAmount int64 Timestamp int64 FromNetworkID *uint64 ToNetworkID *uint64 } func SeedToToken(seed int) *token.Token { tokenIndex := seed % len(TestTokens) return TestTokens[tokenIndex] } func TestTrToToken(t *testing.T, tt *TestTransaction) (token *token.Token, isNative bool) { // Sanity check that none of the markers changed and they should be equal to seed require.Equal(t, tt.Timestamp, tt.BlkNumber) tokenIndex := int(tt.Timestamp) % len(TestTokens) isNative = testutils.SliceContains(NativeTokenIndices, tokenIndex) return TestTokens[tokenIndex], isNative } func generateTestTransaction(seed int) TestTransaction { token := SeedToToken(seed) return TestTransaction{ Hash: eth_common.HexToHash(fmt.Sprintf("0x1%d", seed)), ChainID: common.ChainID(token.ChainID), From: eth_common.HexToAddress(fmt.Sprintf("0x2%d", seed)), Timestamp: int64(seed), BlkNumber: int64(seed), Success: true, Nonce: uint64(seed), // In practice this is last20Bytes(Keccak256(RLP(From, nonce))) Contract: eth_common.HexToAddress(fmt.Sprintf("0x4%d", seed)), MultiTransactionID: NoMultiTransactionID, } } func generateTestTransfer(seed int) TestTransfer { tokenIndex := seed % len(TestTokens) token := TestTokens[tokenIndex] return TestTransfer{ TestTransaction: generateTestTransaction(seed), To: eth_common.HexToAddress(fmt.Sprintf("0x3%d", seed)), Value: int64(seed), Token: token, } } func GenerateTestSendMultiTransaction(tr TestTransfer) TestMultiTransaction { return TestMultiTransaction{ MultiTransactionType: MultiTransactionSend, FromAddress: tr.From, ToAddress: tr.To, FromToken: tr.Token.Symbol, ToToken: tr.Token.Symbol, FromAmount: tr.Value, ToAmount: 0, Timestamp: tr.Timestamp, } } func GenerateTestSwapMultiTransaction(tr TestTransfer, toToken string, toAmount int64) TestMultiTransaction { return TestMultiTransaction{ MultiTransactionType: MultiTransactionSwap, FromAddress: tr.From, ToAddress: tr.To, FromToken: tr.Token.Symbol, ToToken: toToken, FromAmount: tr.Value, ToAmount: toAmount, Timestamp: tr.Timestamp, } } func GenerateTestBridgeMultiTransaction(fromTr, toTr TestTransfer) TestMultiTransaction { return TestMultiTransaction{ MultiTransactionType: MultiTransactionBridge, FromAddress: fromTr.From, ToAddress: toTr.To, FromToken: fromTr.Token.Symbol, ToToken: toTr.Token.Symbol, FromAmount: fromTr.Value, ToAmount: toTr.Value, Timestamp: fromTr.Timestamp, } } // GenerateTestTransfers will generate transaction based on the TestTokens index and roll over if there are more than // len(TestTokens) transactions func GenerateTestTransfers(tb testing.TB, db *sql.DB, firstStartIndex int, count int) (result []TestTransfer, fromAddresses, toAddresses []eth_common.Address) { for i := firstStartIndex; i < (firstStartIndex + count); i++ { tr := generateTestTransfer(i) fromAddresses = append(fromAddresses, tr.From) toAddresses = append(toAddresses, tr.To) result = append(result, tr) } return } type TestCollectible struct { TokenAddress eth_common.Address TokenID *big.Int ChainID common.ChainID } var TestCollectibles = []TestCollectible{ TestCollectible{ TokenAddress: eth_common.HexToAddress("0x97a04fda4d97c6e3547d66b572e29f4a4ff40392"), TokenID: big.NewInt(1), ChainID: 1, }, TestCollectible{ // Same token ID as above but different address TokenAddress: eth_common.HexToAddress("0x2cec8879915cdbd80c88d8b1416aa9413a24ddfa"), TokenID: big.NewInt(1), ChainID: 1, }, TestCollectible{ TokenAddress: eth_common.HexToAddress("0x1dea7a3e04849840c0eb15fd26a55f6c40c4a69b"), TokenID: big.NewInt(11), ChainID: 5, }, TestCollectible{ // Same address as above but different token ID TokenAddress: eth_common.HexToAddress("0x1dea7a3e04849840c0eb15fd26a55f6c40c4a69b"), TokenID: big.NewInt(12), ChainID: 5, }, } var EthMainnet = token.Token{ Address: eth_common.HexToAddress("0x"), Name: "Ether", Symbol: "ETH", ChainID: 1, } var EthGoerli = token.Token{ Address: eth_common.HexToAddress("0x"), Name: "Ether", Symbol: "ETH", ChainID: 5, } var EthOptimism = token.Token{ Address: eth_common.HexToAddress("0x"), Name: "Ether", Symbol: "ETH", ChainID: 10, } var UsdcMainnet = token.Token{ Address: eth_common.HexToAddress("0xa0b86991c6218b36c1d19d4a2e9eb0ce3606eb48"), Name: "USD Coin", Symbol: "USDC", ChainID: 1, } var UsdcGoerli = token.Token{ Address: eth_common.HexToAddress("0x98339d8c260052b7ad81c28c16c0b98420f2b46a"), Name: "USD Coin", Symbol: "USDC", ChainID: 5, } var UsdcOptimism = token.Token{ Address: eth_common.HexToAddress("0x7f5c764cbc14f9669b88837ca1490cca17c31607"), Name: "USD Coin", Symbol: "USDC", ChainID: 10, } var SntMainnet = token.Token{ Address: eth_common.HexToAddress("0x744d70fdbe2ba4cf95131626614a1763df805b9e"), Name: "Status Network Token", Symbol: "SNT", ChainID: 1, } var DaiMainnet = token.Token{ Address: eth_common.HexToAddress("0xf2edF1c091f683E3fb452497d9a98A49cBA84666"), Name: "DAI Stablecoin", Symbol: "DAI", ChainID: 5, } var DaiGoerli = token.Token{ Address: eth_common.HexToAddress("0xf2edF1c091f683E3fb452497d9a98A49cBA84666"), Name: "DAI Stablecoin", Symbol: "DAI", ChainID: 5, } // TestTokens contains ETH/Mainnet, ETH/Goerli, ETH/Optimism, USDC/Mainnet, USDC/Goerli, USDC/Optimism, SNT/Mainnet, DAI/Mainnet, DAI/Goerli var TestTokens = []*token.Token{ &EthMainnet, &EthGoerli, &EthOptimism, &UsdcMainnet, &UsdcGoerli, &UsdcOptimism, &SntMainnet, &DaiMainnet, &DaiGoerli, } var NativeTokenIndices = []int{0, 1, 2} func InsertTestTransfer(tb testing.TB, db *sql.DB, address eth_common.Address, tr *TestTransfer) { token := TestTokens[int(tr.Timestamp)%len(TestTokens)] InsertTestTransferWithOptions(tb, db, address, tr, &TestTransferOptions{ TokenAddress: token.Address, }) } type TestTransferOptions struct { TokenAddress eth_common.Address TokenID *big.Int NullifyAddresses []eth_common.Address Tx *types.Transaction Receipt *types.Receipt } func GenerateTxField(data []byte) *types.Transaction { return types.NewTx(&types.DynamicFeeTx{ Data: data, }) } func InsertTestTransferWithOptions(tb testing.TB, db *sql.DB, address eth_common.Address, tr *TestTransfer, opt *TestTransferOptions) { var ( tx *sql.Tx ) tx, err := db.Begin() require.NoError(tb, err) defer func() { if err == nil { err = tx.Commit() return } _ = tx.Rollback() }() blkHash := eth_common.HexToHash("4") block := blockDBFields{ chainID: uint64(tr.ChainID), account: address, blockNumber: big.NewInt(tr.BlkNumber), blockHash: blkHash, } // Respect `FOREIGN KEY(network_id,address,blk_hash)` of `transfers` table err = insertBlockDBFields(tx, block) require.NoError(tb, err) receiptStatus := uint64(0) if tr.Success { receiptStatus = 1 } tokenType := "eth" if (opt.TokenAddress != eth_common.Address{}) { if opt.TokenID == nil { tokenType = "erc20" } else { tokenType = "erc721" } } // Workaround to simulate writing of NULL values for addresses txTo := &tr.To txFrom := &tr.From for i := 0; i < len(opt.NullifyAddresses); i++ { if opt.NullifyAddresses[i] == tr.To { txTo = nil } if opt.NullifyAddresses[i] == tr.From { txFrom = nil } } transfer := transferDBFields{ chainID: uint64(tr.ChainID), id: tr.Hash, address: address, blockHash: blkHash, blockNumber: big.NewInt(tr.BlkNumber), sender: tr.From, transferType: w_common.Type(tokenType), timestamp: uint64(tr.Timestamp), multiTransactionID: tr.MultiTransactionID, baseGasFees: "0x0", receiptStatus: &receiptStatus, txValue: big.NewInt(tr.Value), txFrom: txFrom, txTo: txTo, txNonce: &tr.Nonce, tokenAddress: &opt.TokenAddress, contractAddress: &tr.Contract, tokenID: opt.TokenID, transaction: opt.Tx, receipt: opt.Receipt, } err = updateOrInsertTransfersDBFields(tx, []transferDBFields{transfer}) require.NoError(tb, err) } func InsertTestPendingTransaction(tb testing.TB, db *sql.DB, tr *TestTransfer) { _, err := db.Exec(` INSERT INTO pending_transactions (network_id, hash, timestamp, from_address, to_address, symbol, gas_price, gas_limit, value, data, type, additional_data, multi_transaction_id ) VALUES (?, ?, ?, ?, ?, 'ETH', 0, 0, ?, '', 'eth', '', ?)`, tr.ChainID, tr.Hash, tr.Timestamp, tr.From, tr.To, tr.Value, tr.MultiTransactionID) require.NoError(tb, err) } func InsertTestMultiTransaction(tb testing.TB, db *sql.DB, tr *TestMultiTransaction) MultiTransactionIDType { fromTokenType := tr.FromToken if tr.FromToken == "" { fromTokenType = testutils.EthSymbol } toTokenType := tr.ToToken if tr.ToToken == "" { toTokenType = testutils.EthSymbol } fromAmount := (*hexutil.Big)(big.NewInt(tr.FromAmount)) toAmount := (*hexutil.Big)(big.NewInt(tr.ToAmount)) result, err := db.Exec(` INSERT INTO multi_transactions (from_address, from_asset, from_amount, to_address, to_asset, to_amount, type, timestamp, from_network_id, to_network_id ) VALUES (?, ?, ?, ?, ?, ?, ?, ?, ?, ?)`, tr.FromAddress, fromTokenType, fromAmount.String(), tr.ToAddress, toTokenType, toAmount.String(), tr.MultiTransactionType, tr.Timestamp, tr.FromNetworkID, tr.ToNetworkID) require.NoError(tb, err) rowID, err := result.LastInsertId() require.NoError(tb, err) tr.MultiTransactionID = MultiTransactionIDType(rowID) return tr.MultiTransactionID }