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status-go/services/wallet/reader_test.go

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package wallet
import (
"context"
"errors"
"fmt"
"math/big"
"sync"
"testing"
"time"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"go.uber.org/mock/gomock"
"github.com/ethereum/go-ethereum/common"
"github.com/ethereum/go-ethereum/common/hexutil"
"github.com/ethereum/go-ethereum/event"
"github.com/status-im/status-go/rpc/chain"
mock_client "github.com/status-im/status-go/rpc/chain/mock/client"
"github.com/status-im/status-go/services/wallet/testutils"
"github.com/status-im/status-go/services/wallet/token"
mock_balance_persistence "github.com/status-im/status-go/services/wallet/token/mock/balance_persistence"
mock_token "github.com/status-im/status-go/services/wallet/token/mock/token"
)
var (
testTokenAddress1 = common.Address{0x34}
testTokenAddress2 = common.Address{0x56}
testAccAddress1 = common.Address{0x12}
testAccAddress2 = common.Address{0x45}
expectedTokens = map[common.Address][]token.StorageToken{
testAccAddress1: []token.StorageToken{
{
Token: token.Token{
Address: testTokenAddress1,
Name: "Token 1",
Symbol: "T1",
Decimals: 18,
},
BalancesPerChain: nil,
},
},
testAccAddress2: []token.StorageToken{
{
Token: token.Token{
Address: testTokenAddress2,
Name: "Token 2",
Symbol: "T2",
Decimals: 18,
},
BalancesPerChain: map[uint64]token.ChainBalance{
1: {
RawBalance: "1000000000000000000",
Balance: big.NewFloat(1),
Address: common.Address{0x12},
ChainID: 1,
HasError: false,
},
},
},
},
}
)
// This matcher is used to compare the expected and actual map[common.Address][]token.StorageToken in parameters to SaveTokens
type mapTokenWithBalanceMatcher struct {
expected []interface{}
}
func (m mapTokenWithBalanceMatcher) Matches(x interface{}) bool {
actual, ok := x.(map[common.Address][]token.StorageToken)
if !ok {
return false
}
if len(m.expected) != len(actual) {
return false
}
expected := m.expected[0].(map[common.Address][]token.StorageToken)
for address, expectedTokens := range expected {
actualTokens, ok := actual[address]
if !ok {
return false
}
if len(expectedTokens) != len(actualTokens) {
return false
}
for i, expectedToken := range expectedTokens {
actualToken := actualTokens[i]
if expectedToken.Token != actualToken.Token {
return false
}
if len(expectedToken.BalancesPerChain) != len(actualToken.BalancesPerChain) {
return false
}
// We can't compare the balances directly because the Balance field is a big.Float
for chainID, expectedBalance := range expectedToken.BalancesPerChain {
actualBalance, ok := actualToken.BalancesPerChain[chainID]
if !ok {
return false
}
if expectedBalance.Balance.Cmp(actualBalance.Balance) != 0 {
return false
}
if expectedBalance.RawBalance != actualBalance.RawBalance {
return false
}
if expectedBalance.Address != actualBalance.Address {
return false
}
if expectedBalance.ChainID != actualBalance.ChainID {
return false
}
if expectedBalance.HasError != actualBalance.HasError {
return false
}
}
}
}
return true
}
func (m *mapTokenWithBalanceMatcher) String() string {
return fmt.Sprintf("%v", m.expected)
}
func newMapTokenWithBalanceMatcher(expected []interface{}) gomock.Matcher {
return &mapTokenWithBalanceMatcher{
expected: expected,
}
}
func testChainBalancesEqual(t *testing.T, expected, actual token.ChainBalance) {
assert.Equal(t, expected.RawBalance, actual.RawBalance)
assert.Equal(t, 0, expected.Balance.Cmp(actual.Balance))
assert.Equal(t, expected.Address, actual.Address)
assert.Equal(t, expected.ChainID, actual.ChainID)
assert.Equal(t, expected.HasError, actual.HasError)
assert.Equal(t, expected.Balance1DayAgo, actual.Balance1DayAgo)
}
func testBalancePerChainEqual(t *testing.T, expected, actual map[uint64]token.ChainBalance) {
assert.Len(t, actual, len(expected))
for chainID, expectedBalance := range expected {
actualBalance, ok := actual[chainID]
assert.True(t, ok)
testChainBalancesEqual(t, expectedBalance, actualBalance)
}
}
func setupReader(t *testing.T) (*Reader, *mock_token.MockManagerInterface, *mock_balance_persistence.MockTokenBalancesStorage, *gomock.Controller) {
mockCtrl := gomock.NewController(t)
mockTokenManager := mock_token.NewMockManagerInterface(mockCtrl)
tokenBalanceStorage := mock_balance_persistence.NewMockTokenBalancesStorage(mockCtrl)
eventsFeed := &event.Feed{}
return NewReader(mockTokenManager, nil, tokenBalanceStorage, eventsFeed), mockTokenManager, tokenBalanceStorage, mockCtrl
}
func TestGetCachedWalletTokensWithoutMarketData(t *testing.T) {
reader, _, tokenPersistence, mockCtrl := setupReader(t)
defer mockCtrl.Finish()
// Test when there is an error getting the tokens
tokenPersistence.EXPECT().GetTokens().Return(nil, errors.New("error"))
tokens, err := reader.getCachedWalletTokensWithoutMarketData()
require.Error(t, err)
assert.Nil(t, tokens)
// Test happy path
tokenPersistence.EXPECT().GetTokens().Return(expectedTokens, nil)
tokens, err = reader.getCachedWalletTokensWithoutMarketData()
require.NoError(t, err)
assert.Equal(t, expectedTokens, tokens)
}
func TestIsBalanceCacheValid(t *testing.T) {
reader, _, tokenPersistence, mockCtrl := setupReader(t)
defer mockCtrl.Finish()
// Mock the cache to be valid
addresses := []common.Address{testAccAddress1, testAccAddress2}
reader.balanceRefreshed()
reader.updateTokenUpdateTimestamp([]common.Address{testAccAddress1, testAccAddress2})
tokenPersistence.EXPECT().GetTokens().Return(expectedTokens, nil)
valid := reader.isBalanceCacheValid(addresses)
assert.True(t, valid)
// Mock the cache to be invalid
reader.invalidateBalanceCache()
valid = reader.isBalanceCacheValid(addresses)
assert.False(t, valid)
// Make cached tokens not contain all the addresses
reader.balanceRefreshed()
cachedTokens := map[common.Address][]token.StorageToken{
testAccAddress1: expectedTokens[testAccAddress1],
}
tokenPersistence.EXPECT().GetTokens().Return(cachedTokens, nil)
valid = reader.isBalanceCacheValid(addresses)
assert.False(t, valid)
// Some timestamps are not updated
reader.balanceRefreshed()
reader.lastWalletTokenUpdateTimestamp = sync.Map{}
reader.updateTokenUpdateTimestamp([]common.Address{testAccAddress1})
cachedTokens = expectedTokens
tokenPersistence.EXPECT().GetTokens().AnyTimes().Return(cachedTokens, nil)
assert.False(t, valid)
}
func TestTokensCachedForAddresses(t *testing.T) {
reader, _, persistence, mockCtrl := setupReader(t)
defer mockCtrl.Finish()
addresses := []common.Address{testAccAddress1, testAccAddress2}
// Test when the cached tokens do not contain all the addresses
cachedTokens := map[common.Address][]token.StorageToken{
testAccAddress1: expectedTokens[testAccAddress1],
}
persistence.EXPECT().GetTokens().Return(cachedTokens, nil)
result := reader.tokensCachedForAddresses(addresses)
assert.False(t, result)
// Test when the cached tokens contain all the addresses
cachedTokens = expectedTokens
persistence.EXPECT().GetTokens().Return(cachedTokens, nil)
result = reader.tokensCachedForAddresses(addresses)
assert.True(t, result)
}
func TestFetchBalancesInternal(t *testing.T) {
reader, tokenManager, _, mockCtrl := setupReader(t)
defer mockCtrl.Finish()
addresses := []common.Address{testAccAddress1, testAccAddress2}
tokenAddresses := []common.Address{testTokenAddress1, testTokenAddress2}
ctx := context.TODO()
clients := map[uint64]chain.ClientInterface{}
// Test when there is an error getting the tokens
tokenManager.EXPECT().GetBalancesByChain(ctx, clients, addresses, tokenAddresses).Return(nil, errors.New("error"))
balances, err := reader.fetchBalances(ctx, clients, addresses, tokenAddresses)
require.Error(t, err)
assert.Nil(t, balances)
// Test happy path
expectedBalances := map[uint64]map[common.Address]map[common.Address]*hexutil.Big{
1: {
testAccAddress2: {
testTokenAddress2: (*hexutil.Big)(big.NewInt(1)),
},
},
}
tokenManager.EXPECT().GetBalancesByChain(ctx, clients, addresses, tokenAddresses).Return(expectedBalances, nil)
balances, err = reader.fetchBalances(ctx, clients, addresses, tokenAddresses)
require.NoError(t, err)
assert.Equal(t, balances, expectedBalances)
}
func TestTokensToBalancesPerChain(t *testing.T) {
cachedTokens := map[common.Address][]token.StorageToken{
testAccAddress1: []token.StorageToken{
{
Token: token.Token{
Address: testTokenAddress1,
Name: "Token 1",
Symbol: "T1",
Decimals: 18,
},
BalancesPerChain: map[uint64]token.ChainBalance{
1: {
RawBalance: "1000000000000000000",
Balance: big.NewFloat(1),
Address: common.Address{0x12},
ChainID: 1,
HasError: false,
},
},
},
{
Token: token.Token{
Address: testTokenAddress2,
Name: "Token 2",
Symbol: "T2",
Decimals: 18,
},
BalancesPerChain: nil, // Skip this token
},
},
testAccAddress2: []token.StorageToken{
{
Token: token.Token{
Address: testTokenAddress2,
Name: "Token 2",
Symbol: "T2",
Decimals: 18,
},
BalancesPerChain: map[uint64]token.ChainBalance{
1: {
RawBalance: "2000000000000000000",
Balance: big.NewFloat(2),
Address: common.Address{0x34},
ChainID: 1,
HasError: false,
},
2: {
RawBalance: "3000000000000000000",
Balance: big.NewFloat(3),
Address: common.Address{0x56},
ChainID: 2,
HasError: false,
},
},
},
},
}
expectedBalancesPerChain := map[uint64]map[common.Address]map[common.Address]*hexutil.Big{
1: {
testAccAddress1: {
common.Address{0x12}: (*hexutil.Big)(big.NewInt(1000000000000000000)),
},
testAccAddress2: {
common.Address{0x34}: (*hexutil.Big)(big.NewInt(2000000000000000000)),
},
},
2: {
testAccAddress2: {
common.Address{0x56}: (*hexutil.Big)(big.NewInt(3000000000000000000)),
},
},
}
result := tokensToBalancesPerChain(cachedTokens)
assert.Equal(t, expectedBalancesPerChain, result)
}
func TestGetBalance1DayAgo(t *testing.T) {
reader, tokenManager, _, mockCtrl := setupReader(t)
defer mockCtrl.Finish()
address := common.Address{0x12}
chainID := uint64(1)
symbol := "T1"
dayAgoTimestamp := time.Now().Add(-24 * time.Hour).Unix()
// Test happy path
expectedBalance := big.NewInt(1000000000000000000)
tokenManager.EXPECT().GetTokenHistoricalBalance(address, chainID, symbol, dayAgoTimestamp).Return(expectedBalance, nil)
balance1DayAgo, err := reader.getBalance1DayAgo(&token.ChainBalance{
ChainID: chainID,
Address: address,
}, dayAgoTimestamp, symbol, address)
require.NoError(t, err)
assert.Equal(t, expectedBalance, balance1DayAgo)
// Test error
tokenManager.EXPECT().GetTokenHistoricalBalance(address, chainID, symbol, dayAgoTimestamp).Return(nil, errors.New("error"))
balance1DayAgo, err = reader.getBalance1DayAgo(&token.ChainBalance{
ChainID: chainID,
Address: address,
}, dayAgoTimestamp, symbol, address)
require.Error(t, err)
assert.Nil(t, balance1DayAgo)
}
func TestToChainBalance(t *testing.T) {
balances := map[uint64]map[common.Address]map[common.Address]*hexutil.Big{
1: {
common.Address{0x12}: {
common.Address{0x34}: (*hexutil.Big)(big.NewInt(1000000000000000000)),
},
},
}
tok := &token.Token{
ChainID: 1,
Address: common.Address{0x34},
Symbol: "T1",
Decimals: 18,
}
address := common.Address{0x12}
decimals := uint(18)
cachedTokens := map[common.Address][]token.StorageToken{
common.Address{0x12}: {
{
Token: token.Token{
Address: common.Address{0x34},
Name: "Token 1",
Symbol: "T1",
Decimals: 18,
},
BalancesPerChain: nil,
},
},
}
expectedBalance := big.NewFloat(1)
hasError := false
expectedChainBalance := &token.ChainBalance{
RawBalance: "1000000000000000000",
Balance: expectedBalance,
Balance1DayAgo: "0",
Address: common.Address{0x34},
ChainID: 1,
HasError: hasError,
}
chainBalance := toChainBalance(balances, tok, address, decimals, cachedTokens, hasError, false)
testChainBalancesEqual(t, *expectedChainBalance, *chainBalance)
// Test when the token is not visible
emptyCachedTokens := map[common.Address][]token.StorageToken{}
isMandatory := false
noBalances := map[uint64]map[common.Address]map[common.Address]*hexutil.Big{
tok.ChainID: {
address: {
tok.Address: nil, // Idk why this can be nil
},
},
}
chainBalance = toChainBalance(noBalances, tok, address, decimals, emptyCachedTokens, hasError, isMandatory)
assert.Nil(t, chainBalance)
}
func TestIsCachedToken(t *testing.T) {
cachedTokens := map[common.Address][]token.StorageToken{
common.Address{0x12}: {
{
Token: token.Token{
Address: common.Address{0x34},
Name: "Token 1",
Symbol: "T1",
Decimals: 18,
},
BalancesPerChain: map[uint64]token.ChainBalance{
1: {
RawBalance: "1000000000000000000",
Balance: big.NewFloat(1),
Address: common.Address{0x12},
ChainID: 1,
HasError: false,
},
},
},
},
}
address := common.Address{0x12}
symbol := "T1"
chainID := uint64(1)
// Test when the token is cached
result := isCachedToken(cachedTokens, address, symbol, chainID)
assert.True(t, result)
// Test when the token is not cached
result = isCachedToken(cachedTokens, address, "T2", chainID)
assert.False(t, result)
// Test when BalancesPerChain for token have no such a chainID
wrongChainID := chainID + 1
result = isCachedToken(cachedTokens, address, symbol, wrongChainID)
assert.False(t, result)
}
func TestCreateBalancePerChainPerSymbol(t *testing.T) {
address := common.Address{0x12}
balances := map[uint64]map[common.Address]map[common.Address]*hexutil.Big{
1: {
address: {
common.Address{0x34}: (*hexutil.Big)(big.NewInt(1000000000000000000)),
},
},
2: {
address: {
common.Address{0x56}: (*hexutil.Big)(big.NewInt(2000000000000000000)),
},
},
}
tokens := []*token.Token{
{
Name: "Token 1 mainnet",
ChainID: 1,
Address: common.Address{0x34},
Symbol: "T1",
Decimals: 18,
},
{
Name: "Token 1 optimism",
ChainID: 2,
Address: common.Address{0x56},
Symbol: "T1",
Decimals: 18,
},
}
// Let cached tokens not have the token for chain 2, it still should be calculated because of positive balance
cachedTokens := map[common.Address][]token.StorageToken{
address: {
{
Token: token.Token{
Address: common.Address{0x34},
Name: "Token 1",
Symbol: "T1",
Decimals: 18,
},
BalancesPerChain: map[uint64]token.ChainBalance{
1: {
RawBalance: "1000000000000000000",
Balance: big.NewFloat(1),
Address: common.Address{0x12},
ChainID: 1,
HasError: false,
},
},
},
},
}
clientConnectionPerChain := map[uint64]bool{
1: true,
2: false,
}
dayAgoTimestamp := time.Now().Add(-24 * time.Hour).Unix()
expectedBalancesPerChain := map[uint64]token.ChainBalance{
1: {
RawBalance: "1000000000000000000",
Balance: big.NewFloat(1),
Balance1DayAgo: "0",
Address: common.Address{0x34},
ChainID: 1,
HasError: false,
},
2: {
RawBalance: "2000000000000000000",
Balance: big.NewFloat(2),
Balance1DayAgo: "0",
Address: common.Address{0x56},
ChainID: 2,
HasError: true,
},
}
reader, tokenManager, _, mockCtrl := setupReader(t)
defer mockCtrl.Finish()
tokenManager.EXPECT().GetTokenHistoricalBalance(gomock.Any(), gomock.Any(), gomock.Any(), gomock.Any()).Times(2).Return(nil, errors.New("error"))
result := reader.createBalancePerChainPerSymbol(address, balances, tokens, cachedTokens, clientConnectionPerChain, dayAgoTimestamp)
assert.Len(t, result, 2)
testBalancePerChainEqual(t, expectedBalancesPerChain, result)
}
func TestCreateBalancePerChainPerSymbolWithMissingBalance(t *testing.T) {
address := common.Address{0x12}
tokens := []*token.Token{
{
Name: "Token 1 mainnet",
ChainID: 1,
Address: common.Address{0x34},
Symbol: "T1",
Decimals: 18,
},
{
Name: "Token 1 optimism",
ChainID: 2,
Address: common.Address{0x56},
Symbol: "T1",
Decimals: 18,
},
}
clientConnectionPerChain := map[uint64]bool{
1: true,
2: false,
}
dayAgoTimestamp := time.Now().Add(-24 * time.Hour).Unix()
emptyCachedTokens := map[common.Address][]token.StorageToken{}
oneBalanceMissing := map[uint64]map[common.Address]map[common.Address]*hexutil.Big{
1: {
address: {
common.Address{0x34}: nil, // Idk why this can be nil
},
},
2: {
address: {
common.Address{0x56}: (*hexutil.Big)(big.NewInt(1000000000000000000)),
},
},
}
expectedBalancesPerChain := map[uint64]token.ChainBalance{
2: {
RawBalance: "1000000000000000000",
Balance: big.NewFloat(1),
Balance1DayAgo: "1",
Address: common.Address{0x56},
ChainID: 2,
HasError: true,
},
}
reader, tokenManager, _, mockCtrl := setupReader(t)
defer mockCtrl.Finish()
tokenManager.EXPECT().GetTokenHistoricalBalance(gomock.Any(), gomock.Any(), gomock.Any(), gomock.Any()).Times(1).Return(big.NewInt(1), nil)
result := reader.createBalancePerChainPerSymbol(address, oneBalanceMissing, tokens, emptyCachedTokens, clientConnectionPerChain, dayAgoTimestamp)
assert.Len(t, result, 1)
testBalancePerChainEqual(t, expectedBalancesPerChain, result)
}
func TestBalancesToTokensByAddress(t *testing.T) {
connectedPerChain := map[uint64]bool{
1: true,
2: true,
}
addresses := []common.Address{
common.HexToAddress("0x123"),
common.HexToAddress("0x456"),
}
allTokens := []*token.Token{
{
Name: "Token 1",
Symbol: "T1",
Decimals: 18,
Verified: true,
ChainID: 1,
Address: common.HexToAddress("0x789"),
},
{
Name: "Token 2",
Symbol: "T2",
Decimals: 18,
Verified: true,
ChainID: 1,
Address: common.HexToAddress("0xdef"),
},
{
Name: "Token 2 optimism",
Symbol: "T2",
Decimals: 18,
Verified: true,
ChainID: 2,
Address: common.HexToAddress("0xabc"),
},
}
balances := map[uint64]map[common.Address]map[common.Address]*hexutil.Big{
1: {
addresses[0]: {
allTokens[0].Address: (*hexutil.Big)(big.NewInt(1000000000000000000)),
},
addresses[1]: {
allTokens[1].Address: (*hexutil.Big)(big.NewInt(2000000000000000000)),
},
},
2: {
addresses[1]: {
allTokens[2].Address: (*hexutil.Big)(big.NewInt(3000000000000000000)),
},
},
}
cachedTokens := map[common.Address][]token.StorageToken{
addresses[0]: {
{
Token: token.Token{
Name: "Token 1",
Symbol: "T1",
Decimals: 18,
Verified: true,
Address: common.HexToAddress("0x789"),
ChainID: 1,
},
BalancesPerChain: map[uint64]token.ChainBalance{
1: {
RawBalance: "1000000000000000000",
Balance: big.NewFloat(1),
Address: common.HexToAddress("0x789"),
ChainID: 1,
HasError: false,
},
},
},
},
}
expectedTokensPerAddress := map[common.Address][]token.StorageToken{
addresses[0]: {
{
Token: token.Token{
Name: "Token 1",
Symbol: "T1",
Decimals: 18,
Verified: true,
},
BalancesPerChain: map[uint64]token.ChainBalance{
1: {
RawBalance: "1000000000000000000",
Balance: big.NewFloat(1),
Address: common.HexToAddress("0x789"),
ChainID: 1,
HasError: false,
Balance1DayAgo: "0",
},
},
},
},
addresses[1]: {
{
Token: token.Token{
Name: "Token 2",
Symbol: "T2",
Decimals: 18,
Verified: true,
},
BalancesPerChain: map[uint64]token.ChainBalance{
1: {
RawBalance: "2000000000000000000",
Balance: big.NewFloat(2),
Address: common.HexToAddress("0xdef"),
ChainID: 1,
HasError: false,
Balance1DayAgo: "0",
},
2: {
RawBalance: "3000000000000000000",
Balance: big.NewFloat(3),
Address: common.HexToAddress("0xabc"),
ChainID: 2,
HasError: false,
Balance1DayAgo: "0",
},
},
},
},
}
reader, tokenManager, _, mockCtrl := setupReader(t)
defer mockCtrl.Finish()
tokenManager.EXPECT().GetTokenHistoricalBalance(gomock.Any(), gomock.Any(), gomock.Any(), gomock.Any()).AnyTimes().Return(nil, nil)
tokens := reader.balancesToTokensByAddress(connectedPerChain, addresses, allTokens, balances, cachedTokens)
assert.Len(t, tokens, 2)
assert.Equal(t, 1, len(tokens[addresses[0]]))
assert.Equal(t, 1, len(tokens[addresses[1]]))
for _, address := range addresses {
for i, token := range tokens[address] {
assert.Equal(t, expectedTokensPerAddress[address][i].Token, token.Token)
testBalancePerChainEqual(t, expectedTokensPerAddress[address][i].BalancesPerChain, token.BalancesPerChain)
}
}
}
func TestGetCachedBalances(t *testing.T) {
reader, tokenManager, persistence, mockCtrl := setupReader(t)
defer mockCtrl.Finish()
addresses := []common.Address{
common.HexToAddress("0x123"),
common.HexToAddress("0x456"),
}
mockClientIface1 := mock_client.NewMockClientInterface(mockCtrl)
mockClientIface2 := mock_client.NewMockClientInterface(mockCtrl)
clients := map[uint64]chain.ClientInterface{
1: mockClientIface1,
2: mockClientIface2,
}
allTokens := []*token.Token{
{
Address: common.HexToAddress("0xabc"),
Name: "Token 1",
Symbol: "T1",
Decimals: 18,
ChainID: 1,
},
{
Address: common.HexToAddress("0xdef"),
Name: "Token 2",
Symbol: "T2",
Decimals: 18,
ChainID: 2,
},
{
Address: common.HexToAddress("0x789"),
Name: "Token 3",
Symbol: "T3",
Decimals: 10,
ChainID: 1,
},
}
cachedTokens := map[common.Address][]token.StorageToken{
addresses[0]: {
{
Token: token.Token{
Address: common.HexToAddress("0xabc"),
Name: "Token 1",
Symbol: "T1",
Decimals: 18,
ChainID: 1,
},
BalancesPerChain: nil,
},
},
addresses[1]: {
{
Token: token.Token{
Address: common.HexToAddress("0xdef"),
Name: "Token 2",
Symbol: "T2",
Decimals: 18,
ChainID: 2,
},
BalancesPerChain: map[uint64]token.ChainBalance{
2: {
RawBalance: "1000000000000000000",
Balance: big.NewFloat(1),
Balance1DayAgo: "0",
Address: common.HexToAddress("0xdef"),
ChainID: 2,
HasError: false,
},
},
},
},
}
expectedTokens := map[common.Address][]token.StorageToken{
addresses[1]: {
{
Token: token.Token{
Name: "Token 2",
Symbol: "T2",
Decimals: 18,
},
BalancesPerChain: map[uint64]token.ChainBalance{
2: {
RawBalance: "1000000000000000000",
Balance: big.NewFloat(1),
Balance1DayAgo: "0",
Address: common.HexToAddress("0xdef"),
ChainID: 2,
HasError: false,
},
},
},
},
}
persistence.EXPECT().GetTokens().Return(cachedTokens, nil)
expectedChains := []uint64{1, 2}
tokenManager.EXPECT().GetTokensByChainIDs(testutils.NewUint64SliceMatcher(expectedChains)).Return(allTokens, nil)
tokenManager.EXPECT().GetTokenHistoricalBalance(gomock.Any(), gomock.Any(), gomock.Any(), gomock.Any()).Return(nil, nil)
mockClientIface1.EXPECT().IsConnected().Return(true)
mockClientIface2.EXPECT().IsConnected().Return(true)
tokens, err := reader.GetCachedBalances(clients, addresses)
require.NoError(t, err)
for _, address := range addresses {
for i, token := range tokens[address] {
assert.Equal(t, expectedTokens[address][i].Token, token.Token)
testBalancePerChainEqual(t, expectedTokens[address][i].BalancesPerChain, token.BalancesPerChain)
}
}
}
func TestFetchBalances(t *testing.T) {
reader, tokenManager, persistence, mockCtrl := setupReader(t)
defer mockCtrl.Finish()
addresses := []common.Address{
common.HexToAddress("0x123"),
common.HexToAddress("0x456"),
}
mockClientIface1 := mock_client.NewMockClientInterface(mockCtrl)
mockClientIface2 := mock_client.NewMockClientInterface(mockCtrl)
clients := map[uint64]chain.ClientInterface{
1: mockClientIface1,
2: mockClientIface2,
}
allTokens := []*token.Token{
{
Address: common.HexToAddress("0xabc"),
Name: "Token 1",
Symbol: "T1",
Decimals: 18,
ChainID: 1,
},
{
Address: common.HexToAddress("0xdef"),
Name: "Token 2",
Symbol: "T2",
Decimals: 18,
ChainID: 2,
},
{
Address: common.HexToAddress("0x789"),
Name: "Token 3",
Symbol: "T3",
Decimals: 10,
ChainID: 1,
},
}
cachedTokens := map[common.Address][]token.StorageToken{
addresses[0]: {
{
Token: token.Token{
Address: common.HexToAddress("0xabc"),
Name: "Token 1",
Symbol: "T1",
Decimals: 18,
ChainID: 1,
},
BalancesPerChain: nil,
},
},
addresses[1]: {
{
Token: token.Token{
Address: common.HexToAddress("0xdef"),
Name: "Token 2",
Symbol: "T2",
Decimals: 18,
ChainID: 2,
},
BalancesPerChain: map[uint64]token.ChainBalance{
2: {
RawBalance: "1000000000000000000",
Balance: big.NewFloat(1),
Balance1DayAgo: "0",
Address: common.HexToAddress("0xdef"),
ChainID: 2,
HasError: false,
},
},
},
},
}
expectedTokens := map[common.Address][]token.StorageToken{
addresses[1]: {
{
Token: token.Token{
Name: "Token 2",
Symbol: "T2",
Decimals: 18,
},
BalancesPerChain: map[uint64]token.ChainBalance{
2: {
RawBalance: "2000000000000000000",
Balance: big.NewFloat(2),
Balance1DayAgo: "0",
Address: common.HexToAddress("0xdef"),
ChainID: 2,
HasError: false,
},
},
},
},
}
persistence.EXPECT().GetTokens().Times(2).Return(cachedTokens, nil)
// Verify that proper tokens are saved
persistence.EXPECT().SaveTokens(newMapTokenWithBalanceMatcher([]interface{}{expectedTokens})).Return(nil)
expectedChains := []uint64{1, 2}
tokenManager.EXPECT().GetTokensByChainIDs(testutils.NewUint64SliceMatcher(expectedChains)).Return(allTokens, nil)
tokenManager.EXPECT().GetTokenHistoricalBalance(gomock.Any(), gomock.Any(), gomock.Any(), gomock.Any()).Return(nil, nil)
expectedBalances := map[uint64]map[common.Address]map[common.Address]*hexutil.Big{
2: {
addresses[1]: {
allTokens[1].Address: (*hexutil.Big)(big.NewInt(2000000000000000000)),
},
},
}
tokenAddresses := getTokenAddresses(allTokens)
tokenManager.EXPECT().GetBalancesByChain(context.TODO(), clients, addresses, testutils.NewAddressSliceMatcher(tokenAddresses)).Return(expectedBalances, nil)
mockClientIface1.EXPECT().IsConnected().Return(true)
mockClientIface2.EXPECT().IsConnected().Return(true)
tokens, err := reader.FetchBalances(context.TODO(), clients, addresses)
require.NoError(t, err)
for address, tokenList := range tokens {
for i, token := range tokenList {
assert.Equal(t, expectedTokens[address][i].Token, token.Token)
testBalancePerChainEqual(t, expectedTokens[address][i].BalancesPerChain, token.BalancesPerChain)
}
}
require.True(t, reader.isBalanceCacheValid(addresses))
}
func TestReaderRestart(t *testing.T) {
reader, _, _, mockCtrl := setupReader(t)
defer mockCtrl.Finish()
err := reader.Start()
require.NoError(t, err)
require.NotNil(t, reader.walletEventsWatcher)
previousWalletEventsWatcher := reader.walletEventsWatcher
err = reader.Restart()
require.NoError(t, err)
require.NotNil(t, reader.walletEventsWatcher)
require.NotEqual(t, previousWalletEventsWatcher, reader.walletEventsWatcher)
}
func TestFetchOrGetCachedWalletBalances(t *testing.T) {
// Test the behavior of FetchOrGetCachedWalletBalances when fetching new balances fails.
// This focuses on the error handling path where the function should return the cached balances as a fallback.
// We don't explicitly test the contents of fetched or cached balances here, as those
// are covered in other dedicated tests. The main goal is to ensure the correct flow of
// execution and data retrieval in this specific failure scenario.
reader, _, tokenPersistence, mockCtrl := setupReader(t)
defer mockCtrl.Finish()
reader.invalidateBalanceCache()
tokenPersistence.EXPECT().GetTokens().Return(nil, errors.New("error")).AnyTimes()
clients := map[uint64]chain.ClientInterface{}
addresses := []common.Address{}
_, err := reader.FetchOrGetCachedWalletBalances(context.TODO(), clients, addresses, false)
require.Error(t, err)
}
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