package market import ( "context" "sync" "time" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/event" "github.com/ethereum/go-ethereum/log" "github.com/status-im/status-go/circuitbreaker" "github.com/status-im/status-go/services/wallet/thirdparty" "github.com/status-im/status-go/services/wallet/walletevent" ) const ( EventMarketStatusChanged walletevent.EventType = "wallet-market-status-changed" ) const ( MaxAgeInSecondsForFresh int64 = -1 MaxAgeInSecondsForBalances int64 = 60 ) type DataPoint struct { Price float64 UpdatedAt int64 } type MarketValuesSnapshot struct { MarketValues thirdparty.TokenMarketValues UpdatedAt int64 } type DataPerTokenAndCurrency = map[string]map[string]DataPoint type MarketValuesPerCurrencyAndToken = map[string]map[string]MarketValuesSnapshot type TokenMarketCache MarketValuesPerCurrencyAndToken type TokenPriceCache DataPerTokenAndCurrency type Manager struct { feed *event.Feed priceCache MarketCache[TokenPriceCache] marketCache MarketCache[TokenMarketCache] IsConnected bool LastCheckedAt int64 IsConnectedLock sync.RWMutex circuitbreaker *circuitbreaker.CircuitBreaker providers []thirdparty.MarketDataProvider } func NewManager(providers []thirdparty.MarketDataProvider, feed *event.Feed) *Manager { cb := circuitbreaker.NewCircuitBreaker(circuitbreaker.Config{ Timeout: 10000, MaxConcurrentRequests: 100, SleepWindow: 300000, ErrorPercentThreshold: 25, }) return &Manager{ feed: feed, priceCache: *NewCache(make(TokenPriceCache)), marketCache: *NewCache(make(TokenMarketCache)), IsConnected: true, LastCheckedAt: time.Now().Unix(), circuitbreaker: cb, providers: providers, } } func (pm *Manager) setIsConnected(value bool) { pm.IsConnectedLock.Lock() defer pm.IsConnectedLock.Unlock() pm.LastCheckedAt = time.Now().Unix() if value != pm.IsConnected { message := "down" if value { message = "up" } pm.feed.Send(walletevent.Event{ Type: EventMarketStatusChanged, Accounts: []common.Address{}, Message: message, At: time.Now().Unix(), }) } pm.IsConnected = value } func (pm *Manager) makeCall(providers []thirdparty.MarketDataProvider, f func(provider thirdparty.MarketDataProvider) (interface{}, error)) (interface{}, error) { cmd := circuitbreaker.NewCommand(context.Background(), nil) for _, provider := range providers { provider := provider cmd.Add(circuitbreaker.NewFunctor(func() ([]interface{}, error) { result, err := f(provider) return []interface{}{result}, err }, provider.ID())) } result := pm.circuitbreaker.Execute(cmd) pm.setIsConnected(result.Error() == nil) if result.Error() != nil { log.Error("Error fetching prices", "error", result.Error()) return nil, result.Error() } return result.Result()[0], nil } func (pm *Manager) FetchHistoricalDailyPrices(symbol string, currency string, limit int, allData bool, aggregate int) ([]thirdparty.HistoricalPrice, error) { result, err := pm.makeCall(pm.providers, func(provider thirdparty.MarketDataProvider) (interface{}, error) { return provider.FetchHistoricalDailyPrices(symbol, currency, limit, allData, aggregate) }) if err != nil { log.Error("Error fetching prices", "error", err) return nil, err } prices := result.([]thirdparty.HistoricalPrice) return prices, nil } func (pm *Manager) FetchHistoricalHourlyPrices(symbol string, currency string, limit int, aggregate int) ([]thirdparty.HistoricalPrice, error) { result, err := pm.makeCall(pm.providers, func(provider thirdparty.MarketDataProvider) (interface{}, error) { return provider.FetchHistoricalHourlyPrices(symbol, currency, limit, aggregate) }) if err != nil { log.Error("Error fetching prices", "error", err) return nil, err } prices := result.([]thirdparty.HistoricalPrice) return prices, nil } func (pm *Manager) FetchTokenMarketValues(symbols []string, currency string) (map[string]thirdparty.TokenMarketValues, error) { result, err := pm.makeCall(pm.providers, func(provider thirdparty.MarketDataProvider) (interface{}, error) { return provider.FetchTokenMarketValues(symbols, currency) }) if err != nil { log.Error("Error fetching prices", "error", err) return nil, err } marketValues := result.(map[string]thirdparty.TokenMarketValues) return marketValues, nil } func (pm *Manager) updateMarketCache(currency string, marketValues map[string]thirdparty.TokenMarketValues) { Write(&pm.marketCache, func(tokenMarketCache TokenMarketCache) TokenMarketCache { for token, tokenMarketValues := range marketValues { if _, present := tokenMarketCache[currency]; !present { tokenMarketCache[currency] = make(map[string]MarketValuesSnapshot) } tokenMarketCache[currency][token] = MarketValuesSnapshot{ UpdatedAt: time.Now().Unix(), MarketValues: tokenMarketValues, } } return tokenMarketCache }) } func (pm *Manager) GetOrFetchTokenMarketValues(symbols []string, currency string, maxAgeInSeconds int64) (map[string]thirdparty.TokenMarketValues, error) { // docs: Determine which token market data to fetch based on what's inside the cache and the last time the cache was updated symbolsToFetch := Read(&pm.marketCache, func(marketCache TokenMarketCache) []string { tokenMarketValuesCache, ok := marketCache[currency] if !ok { return symbols } now := time.Now().Unix() symbolsToFetchMap := make(map[string]bool) symbolsToFetch := make([]string, 0, len(symbols)) for _, symbol := range symbols { marketValueSnapshot, found := tokenMarketValuesCache[symbol] if !found { if !symbolsToFetchMap[symbol] { symbolsToFetchMap[symbol] = true symbolsToFetch = append(symbolsToFetch, symbol) } continue } if now-marketValueSnapshot.UpdatedAt > maxAgeInSeconds { if !symbolsToFetchMap[symbol] { symbolsToFetchMap[symbol] = true symbolsToFetch = append(symbolsToFetch, symbol) } continue } } return symbolsToFetch }) // docs: Fetch and cache the token market data for missing or stale token market data if len(symbolsToFetch) > 0 { marketValues, err := pm.FetchTokenMarketValues(symbolsToFetch, currency) if err != nil { return nil, err } pm.updateMarketCache(currency, marketValues) } // docs: Extract token market data from populated cache tokenMarketValues := Read(&pm.marketCache, func(tokenMarketCache TokenMarketCache) map[string]thirdparty.TokenMarketValues { tokenMarketValuesPerSymbol := make(map[string]thirdparty.TokenMarketValues) if cachedTokenMarketValues, ok := tokenMarketCache[currency]; ok { for _, symbol := range symbols { if marketValuesSnapshot, found := cachedTokenMarketValues[symbol]; found { tokenMarketValuesPerSymbol[symbol] = marketValuesSnapshot.MarketValues } } } return tokenMarketValuesPerSymbol }) return tokenMarketValues, nil } func (pm *Manager) FetchTokenDetails(symbols []string) (map[string]thirdparty.TokenDetails, error) { result, err := pm.makeCall(pm.providers, func(provider thirdparty.MarketDataProvider) (interface{}, error) { return provider.FetchTokenDetails(symbols) }) if err != nil { log.Error("Error fetching prices", "error", err) return nil, err } tokenDetails := result.(map[string]thirdparty.TokenDetails) return tokenDetails, nil } func (pm *Manager) FetchPrice(symbol string, currency string) (float64, error) { symbols := [1]string{symbol} currencies := [1]string{currency} prices, err := pm.FetchPrices(symbols[:], currencies[:]) if err != nil { return 0, err } return prices[symbol][currency], nil } func (pm *Manager) FetchPrices(symbols []string, currencies []string) (map[string]map[string]float64, error) { response, err := pm.makeCall(pm.providers, func(provider thirdparty.MarketDataProvider) (interface{}, error) { return provider.FetchPrices(symbols, currencies) }) if err != nil { log.Error("Error fetching prices", "error", err) return nil, err } prices := response.(map[string]map[string]float64) pm.updatePriceCache(prices) return prices, nil } func (pm *Manager) getCachedPricesFor(symbols []string, currencies []string) DataPerTokenAndCurrency { return Read(&pm.priceCache, func(tokenPriceCache TokenPriceCache) DataPerTokenAndCurrency { prices := make(DataPerTokenAndCurrency) for _, symbol := range symbols { prices[symbol] = make(map[string]DataPoint) for _, currency := range currencies { prices[symbol][currency] = tokenPriceCache[symbol][currency] } } return prices }) } func (pm *Manager) updatePriceCache(prices map[string]map[string]float64) { Write(&pm.priceCache, func(tokenPriceCache TokenPriceCache) TokenPriceCache { for token, pricesPerCurrency := range prices { _, present := tokenPriceCache[token] if !present { tokenPriceCache[token] = make(map[string]DataPoint) } for currency, price := range pricesPerCurrency { tokenPriceCache[token][currency] = DataPoint{ Price: price, UpdatedAt: time.Now().Unix(), } } } return tokenPriceCache }) } // Return cached price if present in cache and age is less than maxAgeInSeconds. Fetch otherwise. func (pm *Manager) GetOrFetchPrices(symbols []string, currencies []string, maxAgeInSeconds int64) (DataPerTokenAndCurrency, error) { symbolsToFetch := Read(&pm.priceCache, func(tokenPriceCache TokenPriceCache) []string { symbolsToFetchMap := make(map[string]bool) symbolsToFetch := make([]string, 0, len(symbols)) now := time.Now().Unix() for _, symbol := range symbols { tokenPriceCache, ok := tokenPriceCache[symbol] if !ok { if !symbolsToFetchMap[symbol] { symbolsToFetchMap[symbol] = true symbolsToFetch = append(symbolsToFetch, symbol) } continue } for _, currency := range currencies { if now-tokenPriceCache[currency].UpdatedAt > maxAgeInSeconds { if !symbolsToFetchMap[symbol] { symbolsToFetchMap[symbol] = true symbolsToFetch = append(symbolsToFetch, symbol) } break } } } return symbolsToFetch }) if len(symbolsToFetch) > 0 { _, err := pm.FetchPrices(symbolsToFetch, currencies) if err != nil { return nil, err } } prices := pm.getCachedPricesFor(symbols, currencies) return prices, nil }