package balancefetcher import ( "context" "errors" "math/big" "os" "testing" "github.com/stretchr/testify/require" "go.uber.org/mock/gomock" "github.com/ethereum/go-ethereum/accounts/abi/bind" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/common/hexutil" "github.com/ethereum/go-ethereum/log" "github.com/status-im/status-go/contracts/ethscan" "github.com/status-im/status-go/params" mock_contracts "github.com/status-im/status-go/contracts/mock" "github.com/status-im/status-go/rpc/chain" mock_client "github.com/status-im/status-go/rpc/chain/mock/client" mock_network "github.com/status-im/status-go/rpc/network/mock" w_common "github.com/status-im/status-go/services/wallet/common" ) type FakeBalanceScanner struct { etherBalances map[common.Address]*big.Int tokenBalances map[common.Address]map[common.Address]*big.Int } func (f *FakeBalanceScanner) EtherBalances(opts *bind.CallOpts, addresses []common.Address) ([]ethscan.BalanceScannerResult, error) { result := make([]ethscan.BalanceScannerResult, 0, len(addresses)) for _, address := range addresses { balance, ok := f.etherBalances[address] if !ok { result = append(result, ethscan.BalanceScannerResult{ Success: false, Data: []byte{}, }) } else { result = append(result, ethscan.BalanceScannerResult{ Success: true, Data: balance.Bytes(), }) } } return result, nil } func (f *FakeBalanceScanner) TokenBalances(opts *bind.CallOpts, addresses []common.Address, tokenAddress common.Address) ([]ethscan.BalanceScannerResult, error) { result := make([]ethscan.BalanceScannerResult, 0, len(addresses)) for _, address := range addresses { balances, ok := f.tokenBalances[address] if !ok { result = append(result, ethscan.BalanceScannerResult{ Success: false, Data: []byte{}, }) } else { balance, ok := balances[tokenAddress] if !ok { result = append(result, ethscan.BalanceScannerResult{ Success: false, Data: []byte{}, }) } else { result = append(result, ethscan.BalanceScannerResult{ Success: true, Data: balance.Bytes(), }) } } } return result, nil } func (f *FakeBalanceScanner) TokensBalance(opts *bind.CallOpts, owner common.Address, contracts []common.Address) ([]ethscan.BalanceScannerResult, error) { result := make([]ethscan.BalanceScannerResult, 0, len(contracts)) for _, contract := range contracts { balances, ok := f.tokenBalances[owner] if !ok { result = append(result, ethscan.BalanceScannerResult{ Success: false, Data: []byte{}, }) } else { balance, ok := balances[contract] if !ok { result = append(result, ethscan.BalanceScannerResult{ Success: false, Data: []byte{}, }) } else { result = append(result, ethscan.BalanceScannerResult{ Success: true, Data: balance.Bytes(), }) } } } return result, nil } type FakeERC20Caller struct { accountBalances map[common.Address]*big.Int } func (f *FakeERC20Caller) BalanceOf(opts *bind.CallOpts, account common.Address) (*big.Int, error) { balance, ok := f.accountBalances[account] if !ok { return nil, errors.New("account not found") } return balance, nil } func (f *FakeERC20Caller) Name(opts *bind.CallOpts) (string, error) { return "TestToken", nil } func (f *FakeERC20Caller) Symbol(opts *bind.CallOpts) (string, error) { return "TT", nil } func (f *FakeERC20Caller) Decimals(opts *bind.CallOpts) (uint8, error) { return 18, nil } func TestBalanceFetcherFetchBalancesForChainNativeAndTokensWithScanContract(t *testing.T) { log.Root().SetHandler(log.LvlFilterHandler(log.LvlInfo, log.StreamHandler(os.Stdout, log.TerminalFormat(true)))) ctx := context.Background() accounts := []common.Address{ common.HexToAddress("0x1234567890abcdef"), common.HexToAddress("0xabcdef1234567890"), } tokens := []common.Address{ NativeChainAddress, common.HexToAddress("0xabcdef1234567890"), common.HexToAddress("0x0987654321fedcba"), } var atBlock *big.Int // nil triggers using a scan contract ctrl := gomock.NewController(t) defer ctrl.Finish() networkManager := mock_network.NewMockManagerInterface(ctrl) networkManager.EXPECT().GetAll().Return([]*params.Network{ { ChainID: w_common.EthereumMainnet, }, }, nil).AnyTimes() chainClient := mock_client.NewMockClientInterface(ctrl) chainClient.EXPECT().NetworkID().Return(w_common.EthereumMainnet).AnyTimes() expectedEthBalances := map[common.Address]*big.Int{ accounts[0]: big.NewInt(100), accounts[1]: big.NewInt(200), } expectedTokenBalances := map[common.Address]map[common.Address]*big.Int{ accounts[0]: { tokens[1]: big.NewInt(1000), tokens[2]: big.NewInt(2000), }, accounts[1]: { tokens[1]: big.NewInt(3000), tokens[2]: big.NewInt(4000), }, } expectedBalances := map[common.Address]map[common.Address]*hexutil.Big{ accounts[0]: { tokens[0]: (*hexutil.Big)(expectedEthBalances[accounts[0]]), tokens[1]: (*hexutil.Big)(expectedTokenBalances[accounts[0]][tokens[1]]), tokens[2]: (*hexutil.Big)(expectedTokenBalances[accounts[0]][tokens[2]]), }, accounts[1]: { tokens[0]: (*hexutil.Big)(expectedEthBalances[accounts[1]]), tokens[1]: (*hexutil.Big)(expectedTokenBalances[accounts[1]][tokens[1]]), tokens[2]: (*hexutil.Big)(expectedTokenBalances[accounts[1]][tokens[2]]), }, } contractMaker := mock_contracts.NewMockContractMakerIface(ctrl) contractMaker.EXPECT().NewEthScan(w_common.EthereumMainnet).Return(&FakeBalanceScanner{ etherBalances: expectedEthBalances, tokenBalances: expectedTokenBalances, }, uint(0), nil).AnyTimes() bf := NewDefaultBalanceFetcher(contractMaker) // Fetch native balances and token balances using scan contract balances, err := bf.fetchBalancesForChain(ctx, chainClient, accounts, tokens, atBlock) require.NoError(t, err) require.Equal(t, expectedBalances, balances) } func TestBalanceFetcherFetchBalancesForChainTokensWithTokenContracts(t *testing.T) { log.Root().SetHandler(log.LvlFilterHandler(log.LvlInfo, log.StreamHandler(os.Stdout, log.TerminalFormat(true)))) ctx := context.Background() accounts := []common.Address{ common.HexToAddress("0x1234567890abcdef"), common.HexToAddress("0xabcdef1234567890"), } tokens := []common.Address{ common.HexToAddress("0xabcdef1234567890"), common.HexToAddress("0x0987654321fedcba"), } atBlock := big.NewInt(0) // will trigger using a token contract ctrl := gomock.NewController(t) networkManager := mock_network.NewMockManagerInterface(ctrl) networkManager.EXPECT().GetAll().Return([]*params.Network{ { ChainID: w_common.EthereumMainnet, }, }, nil).AnyTimes() chainClient := mock_client.NewMockClientInterface(ctrl) chainClient.EXPECT().NetworkID().Return(w_common.EthereumMainnet).AnyTimes() chainClient.EXPECT().CallContract(gomock.Any(), gomock.Any(), atBlock).Return([]byte{}, nil).AnyTimes() expectedTokenBalances := map[common.Address]map[common.Address]*big.Int{ tokens[0]: { accounts[0]: big.NewInt(1000), accounts[1]: big.NewInt(2000), }, tokens[1]: { accounts[0]: big.NewInt(3000), accounts[1]: big.NewInt(4000), }, } expectedBalances := map[common.Address]map[common.Address]*hexutil.Big{ accounts[0]: { tokens[0]: (*hexutil.Big)(expectedTokenBalances[tokens[0]][accounts[0]]), tokens[1]: (*hexutil.Big)(expectedTokenBalances[tokens[1]][accounts[0]]), }, accounts[1]: { tokens[0]: (*hexutil.Big)(expectedTokenBalances[tokens[0]][accounts[1]]), tokens[1]: (*hexutil.Big)(expectedTokenBalances[tokens[1]][accounts[1]]), }, } contractMaker := mock_contracts.NewMockContractMakerIface(ctrl) contractMaker.EXPECT().NewEthScan(w_common.EthereumMainnet).Return(&FakeBalanceScanner{}, uint(0), nil).Times(1) for _, token := range tokens { contractMaker.EXPECT().NewERC20Caller(w_common.EthereumMainnet, token).Return(&FakeERC20Caller{ accountBalances: expectedTokenBalances[token], }, nil).AnyTimes() } bf := NewDefaultBalanceFetcher(contractMaker) // Fetch token balances using tokens contracts balances, err := bf.fetchBalancesForChain(ctx, chainClient, accounts, tokens, atBlock) require.NoError(t, err) require.Equal(t, expectedBalances, balances) } func TestBalanceFetcherGetBalancesAtByChain(t *testing.T) { log.Root().SetHandler(log.LvlFilterHandler(log.LvlInfo, log.StreamHandler(os.Stdout, log.TerminalFormat(true)))) ctx := context.Background() accounts := []common.Address{ common.HexToAddress("0x1234567890abcdef"), common.HexToAddress("0xabcdef1234567890"), } tokens := []common.Address{ NativeChainAddress, common.HexToAddress("0xabcdef1234567890"), common.HexToAddress("0x0987654321fedcba"), } var atBlock *big.Int // nil triggers using a scan contract atBlocks := map[uint64]*big.Int{ w_common.EthereumMainnet: atBlock, // nil triggers using a scan contract w_common.OptimismMainnet: atBlock, // nil triggers using a scan contract } ctrl := gomock.NewController(t) defer ctrl.Finish() networkManager := mock_network.NewMockManagerInterface(ctrl) networkManager.EXPECT().GetAll().Return([]*params.Network{ { ChainID: w_common.EthereumMainnet, }, { ChainID: w_common.OptimismMainnet, }, { ChainID: w_common.ArbitrumMainnet, }, }, nil).AnyTimes() chainClient := mock_client.NewMockClientInterface(ctrl) chainClient.EXPECT().NetworkID().Return(w_common.EthereumMainnet).AnyTimes() chainClientOpt := mock_client.NewMockClientInterface(ctrl) chainClientOpt.EXPECT().NetworkID().Return(w_common.OptimismMainnet).AnyTimes() chainClientArb := mock_client.NewMockClientInterface(ctrl) chainClientArb.EXPECT().NetworkID().Return(w_common.ArbitrumMainnet).AnyTimes() expectedEthBalances := map[common.Address]*big.Int{ accounts[0]: big.NewInt(100), accounts[1]: big.NewInt(200), } expectedEthOptBalances := map[common.Address]*big.Int{ accounts[0]: big.NewInt(300), accounts[1]: big.NewInt(400), } expectedTokenBalances := map[common.Address]map[common.Address]*big.Int{ accounts[0]: { tokens[1]: big.NewInt(1000), tokens[2]: big.NewInt(2000), }, accounts[1]: { tokens[1]: big.NewInt(3000), tokens[2]: big.NewInt(4000), }, } expectedTokenOptBalances := map[common.Address]map[common.Address]*big.Int{ accounts[0]: { tokens[1]: big.NewInt(5000), tokens[2]: big.NewInt(6000), }, } expectedBalances := map[uint64]map[common.Address]map[common.Address]*hexutil.Big{ w_common.EthereumMainnet: { accounts[0]: { tokens[0]: (*hexutil.Big)(expectedEthBalances[accounts[0]]), tokens[1]: (*hexutil.Big)(expectedTokenBalances[accounts[0]][tokens[1]]), tokens[2]: (*hexutil.Big)(expectedTokenBalances[accounts[0]][tokens[2]]), }, accounts[1]: { tokens[0]: (*hexutil.Big)(expectedEthBalances[accounts[1]]), tokens[1]: (*hexutil.Big)(expectedTokenBalances[accounts[1]][tokens[1]]), tokens[2]: (*hexutil.Big)(expectedTokenBalances[accounts[1]][tokens[2]]), }, }, w_common.OptimismMainnet: { accounts[0]: { tokens[0]: (*hexutil.Big)(expectedEthOptBalances[accounts[0]]), tokens[1]: (*hexutil.Big)(expectedTokenOptBalances[accounts[0]][tokens[1]]), tokens[2]: (*hexutil.Big)(expectedTokenOptBalances[accounts[0]][tokens[2]]), }, accounts[1]: { tokens[0]: (*hexutil.Big)(expectedEthOptBalances[accounts[1]]), }, }, } contractMaker := mock_contracts.NewMockContractMakerIface(ctrl) contractMaker.EXPECT().NewEthScan(w_common.EthereumMainnet).Return(&FakeBalanceScanner{ etherBalances: expectedEthBalances, tokenBalances: expectedTokenBalances, }, uint(0), nil).AnyTimes() contractMaker.EXPECT().NewEthScan(w_common.OptimismMainnet).Return(&FakeBalanceScanner{ etherBalances: expectedEthOptBalances, tokenBalances: expectedTokenOptBalances, }, uint(0), nil).AnyTimes() contractMaker.EXPECT().NewEthScan(w_common.ArbitrumMainnet).Return(nil, uint(0), errors.New("no scan contract")).AnyTimes() bf := NewDefaultBalanceFetcher(contractMaker) // Fetch native balances and token balances using scan contract for Ethereum Mainnet and Optimism Mainnet chainClients := map[uint64]chain.ClientInterface{ w_common.EthereumMainnet: chainClient, w_common.OptimismMainnet: chainClientOpt, } balances, err := bf.GetBalancesAtByChain(ctx, chainClients, accounts, tokens, atBlocks) require.NoError(t, err) require.Equal(t, expectedBalances, balances) }