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ExampleProgram.cs
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ExampleProgram.cs
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using System;
using System.Collections.Generic;
using System.Reflection;
using System.Threading;
using System.Threading.Tasks;
using BinanceExchange.API;
using BinanceExchange.API.Client;
using BinanceExchange.API.Client.Interfaces;
using BinanceExchange.API.Enums;
using BinanceExchange.API.Market;
using BinanceExchange.API.Models.Request;
using BinanceExchange.API.Models.Response;
using BinanceExchange.API.Models.Response.Error;
using BinanceExchange.API.Models.WebSocket;
using BinanceExchange.API.Utility;
using BinanceExchange.API.Websockets;
using log4net;
using Newtonsoft.Json;
using WebSocketSharp;
namespace BinanceExchange.Console
{
/// <summary>
/// This Console app provides a number of examples of utilising the BinanceDotNet library
/// </summary>
public class ExampleProgram
{
public static async Task Main(string[] args)
{
//Provide your configuration and keys here, this allows the client to function as expected.
string apiKey = "YOUR_API_KEY";
string secretKey = "YOUR_SECRET_KEY";
System.Console.WriteLine("--------------------------");
System.Console.WriteLine("BinanceExchange API - Tester");
System.Console.WriteLine("--------------------------");
//Building a test logger
var exampleProgramLogger = LogManager.GetLogger(typeof(ExampleProgram));
exampleProgramLogger.Debug("Logging Test");
//Initialise the general client client with config
var client = new BinanceClient(new ClientConfiguration()
{
ApiKey = apiKey,
SecretKey = secretKey,
Logger = exampleProgramLogger,
});
System.Console.WriteLine("Interacting with Binance...");
bool DEBUG_ALL = false;
/*
* Code Examples - Make sure you adjust value of DEBUG_ALL
*/
if (DEBUG_ALL)
{
// Test the Client
await client.TestConnectivity();
// Get All Orders
var allOrdersRequest = new AllOrdersRequest()
{
Symbol = "ETHBTC",
Limit = 5,
};
allOrdersRequest = new AllOrdersRequest()
{
Symbol = TradingPairSymbols.BTCPairs.ETH_BTC,
Limit = 5,
};
// Get All Orders
var allOrders = await client.GetAllOrders(allOrdersRequest);
// Get the order book, and use the cache
var orderBook = await client.GetOrderBook("ETHBTC", true);
// Cancel an order
var cancelOrder = await client.CancelOrder(new CancelOrderRequest()
{
NewClientOrderId = "123456",
OrderId = 523531,
OriginalClientOrderId = "789",
Symbol = "ETHBTC",
});
// Create an order with varying options
var createOrder = await client.CreateOrder(new CreateOrderRequest()
{
IcebergQuantity = 100,
Price = 230,
Quantity = 0.6m,
Side = OrderSide.Buy,
Symbol = "ETHBTC",
Type = OrderType.Market,
});
// Get account information
var accountInformation = await client.GetAccountInformation(3500);
// Get account trades
var accountTrades = await client.GetAccountTrades(new AllTradesRequest()
{
FromId = 352262,
Symbol = "ETHBTC",
});
// Get a list of Compressed aggregate trades with varying options
var aggTrades = await client.GetCompressedAggregateTrades(new GetCompressedAggregateTradesRequest()
{
StartTime = DateTime.UtcNow.AddDays(-1),
Symbol = "ETHBTC",
});
// Get current open orders for the specified symbol
var currentOpenOrders = await client.GetCurrentOpenOrders(new CurrentOpenOrdersRequest()
{
Symbol = "ETHBTC",
});
// Get daily ticker
var dailyTicker = await client.GetDailyTicker("ETHBTC");
// Get Symbol Order Book Ticket
var symbolOrderBookTicker = await client.GetSymbolOrderBookTicker();
// Get Symbol Order Price Ticker
var symbolOrderPriceTicker = await client.GetSymbolsPriceTicker();
// Query a specific order on Binance
var orderQuery = await client.QueryOrder(new QueryOrderRequest()
{
OrderId = 5425425,
Symbol = "ETHBTC",
});
// Firing off a request and catching all the different exception types.
try
{
accountTrades = await client.GetAccountTrades(new AllTradesRequest()
{
FromId = 352262,
Symbol = "ETHBTC",
});
}
catch (BinanceBadRequestException badRequestException)
{
}
catch (BinanceServerException serverException)
{
}
catch (BinanceTimeoutException timeoutException)
{
}
catch (BinanceException unknownException)
{
}
}
// Start User Data Stream, ping and close
var userData = await client.StartUserDataStream();
await client.KeepAliveUserDataStream(userData.ListenKey);
await client.CloseUserDataStream(userData.ListenKey);
// Manual WebSocket usage
var manualBinanceWebSocket = new InstanceBinanceWebSocketClient(client);
var socketId = manualBinanceWebSocket.ConnectToDepthWebSocket("ETHBTC", b =>
{
System.Console.Clear();
System.Console.WriteLine($"{JsonConvert.SerializeObject(b.BidDepthDeltas, Formatting.Indented)}");
System.Console.SetWindowPosition(0, 0);
});
#region Advanced Examples
// This builds a local Kline cache, with an initial call to the API and then continues to fill
// the cache with data from the WebSocket connection. It is quite an advanced example as it provides
// additional options such as an Exit Func<T> or timeout, and checks in place for cache instances.
// You could provide additional logic here such as populating a database, ping off more messages, or simply
// timing out a fill for the cache.
var dict = new Dictionary<string, KlineCacheObject>();
//await BuildAndUpdateLocalKlineCache(client, "BNBBTC", KlineInterval.OneMinute,
// new GetKlinesCandlesticksRequest()
// {
// StartTime = DateTime.UtcNow.AddHours(-1),
// EndTime = DateTime.UtcNow,
// Interval = KlineInterval.OneMinute,
// Symbol = "BNBBTC"
// }, new WebSocketConnectionFunc(15000), dict);
// This builds a local depth cache from an initial call to the API and then continues to fill
// the cache with data from the WebSocket
var localDepthCache = await BuildLocalDepthCache(client);
// Build the Buy Sell volume from the results
var volume = ResultTransformations.CalculateTradeVolumeFromDepth("BNBBTC", localDepthCache);
#endregion
System.Console.WriteLine("Complete.");
Thread.Sleep(6000);
manualBinanceWebSocket.CloseWebSocketInstance(socketId);
System.Console.ReadLine();
}
/// <summary>
/// Build local Depth cache from WebSocket and API Call example.
/// </summary>
/// <param name="client"></param>
/// <returns></returns>
private static async Task<Dictionary<string, DepthCacheObject>> BuildLocalDepthCache(IBinanceClient client)
{
// Code example of building out a Dictionary local cache for a symbol using deltas from the WebSocket
var localDepthCache = new Dictionary<string, DepthCacheObject> {{ "BNBBTC", new DepthCacheObject()
{
Asks = new Dictionary<decimal, decimal>(),
Bids = new Dictionary<decimal, decimal>(),
}}};
var bnbBtcDepthCache = localDepthCache["BNBBTC"];
// Get Order Book, and use Cache
var depthResults = await client.GetOrderBook("BNBBTC", true, 100);
//Populate our depth cache
depthResults.Asks.ForEach(a =>
{
if (a.Quantity != 0.00000000M)
{
bnbBtcDepthCache.Asks.Add(a.Price, a.Quantity);
}
});
depthResults.Bids.ForEach(a =>
{
if (a.Quantity != 0.00000000M)
{
bnbBtcDepthCache.Bids.Add(a.Price, a.Quantity);
}
});
// Store the last update from our result set;
long lastUpdateId = depthResults.LastUpdateId;
using (var binanceWebSocketClient = new DisposableBinanceWebSocketClient(client))
{
binanceWebSocketClient.ConnectToDepthWebSocket("BNBBTC", data =>
{
if (lastUpdateId < data.UpdateId)
{
data.BidDepthDeltas.ForEach((bd) =>
{
CorrectlyUpdateDepthCache(bd, bnbBtcDepthCache.Bids);
});
data.AskDepthDeltas.ForEach((ad) =>
{
CorrectlyUpdateDepthCache(ad, bnbBtcDepthCache.Asks);
});
}
lastUpdateId = data.UpdateId;
System.Console.Clear();
System.Console.WriteLine($"{JsonConvert.SerializeObject(bnbBtcDepthCache, Formatting.Indented)}");
System.Console.SetWindowPosition(0, 0);
});
Thread.Sleep(8000);
}
return localDepthCache;
}
/// <summary>
/// Advanced approach to building local Kline Cache from WebSocket and API Call example (refactored)
/// </summary>
/// <param name="binanceClient">The BinanceClient instance</param>
/// <param name="symbol">The Symbol to request</param>
/// <param name="interval">The interval for Klines</param>
/// <param name="klinesCandlesticksRequest">The initial request for Klines</param>
/// <param name="webSocketConnectionFunc">The function to determine exiting the websocket (can be timeout or Func based on external params)</param>
/// <param name="cacheObject">The cache object. Must always be provided, and can exist with data.</param>
/// <returns></returns>
public static async Task BuildAndUpdateLocalKlineCache(IBinanceClient binanceClient,
string symbol,
KlineInterval interval,
GetKlinesCandlesticksRequest klinesCandlesticksRequest,
WebSocketConnectionFunc webSocketConnectionFunc,
Dictionary<string, KlineCacheObject> cacheObject)
{
Guard.AgainstNullOrEmpty(symbol);
Guard.AgainstNull(webSocketConnectionFunc);
Guard.AgainstNull(klinesCandlesticksRequest);
Guard.AgainstNull(cacheObject);
long epochTicks = new DateTime(1970, 1, 1).Ticks;
if (cacheObject.ContainsKey(symbol))
{
if (cacheObject[symbol].KlineInterDictionary.ContainsKey(interval))
{
throw new Exception(
"Symbol and Interval pairing already provided, please use a different interval/symbol or pair.");
}
cacheObject[symbol].KlineInterDictionary.Add(interval, new KlineIntervalCacheObject());
}
else
{
var klineCacheObject = new KlineCacheObject
{
KlineInterDictionary = new Dictionary<KlineInterval, KlineIntervalCacheObject>()
};
cacheObject.Add(symbol, klineCacheObject);
cacheObject[symbol].KlineInterDictionary.Add(interval, new KlineIntervalCacheObject());
}
// Get Kline Results, and use Cache
long ticks = klinesCandlesticksRequest.StartTime.Value.Ticks;
var startTimeKeyTime = (ticks - epochTicks) / TimeSpan.TicksPerSecond;
var klineResults = await binanceClient.GetKlinesCandlesticks(klinesCandlesticksRequest);
var oneMinKlineCache = cacheObject[symbol].KlineInterDictionary[interval];
oneMinKlineCache.TimeKlineDictionary = new Dictionary<long, KlineCandleStick>();
var instanceKlineCache = oneMinKlineCache.TimeKlineDictionary;
//Populate our kline cache with initial results
klineResults.ForEach(k =>
{
instanceKlineCache.Add(((k.OpenTime.Ticks - epochTicks) / TimeSpan.TicksPerSecond), new KlineCandleStick()
{
Close = k.Close,
High = k.High,
Low = k.Low,
Open = k.Open,
Volume = k.Volume,
});
});
// Store the last update from our result set;
using (var binanceWebSocketClient = new DisposableBinanceWebSocketClient(binanceClient))
{
binanceWebSocketClient.ConnectToKlineWebSocket(symbol, interval, data =>
{
var keyTime = (data.Kline.StartTime.Ticks - epochTicks) / TimeSpan.TicksPerSecond;
var klineObj = new KlineCandleStick()
{
Close = data.Kline.Close,
High = data.Kline.High,
Low = data.Kline.Low,
Open = data.Kline.Open,
Volume = data.Kline.Volume,
};
if (!data.Kline.IsBarFinal)
{
if (keyTime < startTimeKeyTime)
{
return;
}
TryAddUpdateKlineCache(instanceKlineCache, keyTime, klineObj);
}
else
{
TryAddUpdateKlineCache(instanceKlineCache, keyTime, klineObj);
}
System.Console.Clear();
System.Console.WriteLine($"{JsonConvert.SerializeObject(instanceKlineCache, Formatting.Indented)}");
System.Console.SetWindowPosition(0, 0);
});
if (webSocketConnectionFunc.IsTimout)
{
Thread.Sleep(webSocketConnectionFunc.Timeout);
}
else
{
while (true)
{
if (!webSocketConnectionFunc.ExitFunction())
{
// Throttle Application
Thread.Sleep(100);
}
else
{
break;
}
}
}
}
}
private static void TryAddUpdateKlineCache(Dictionary<long, KlineCandleStick> primary, long keyTime, KlineCandleStick klineObj)
{
if (primary.ContainsKey(keyTime))
{
primary[keyTime] = klineObj;
}
else
{
primary.Add(keyTime, klineObj);
}
}
private static void CorrectlyUpdateDepthCache(TradeResponse bd, Dictionary<decimal, decimal> depthCache)
{
const decimal defaultIgnoreValue = 0.00000000M;
if (depthCache.ContainsKey(bd.Price))
{
if (bd.Quantity == defaultIgnoreValue)
{
depthCache.Remove(bd.Price);
}
else
{
depthCache[bd.Price] = bd.Quantity;
}
}
else
{
if (bd.Quantity != defaultIgnoreValue)
{
depthCache[bd.Price] = bd.Quantity;
}
}
}
}
}