def handle(self, *args, **options): email = options.get('email') exchange = options.get('exchange') if not email: raise CommandError( "Please provide --account_email. See details --help" ) accounts = Account.objects.filter( user__email=email, exchange__name=exchange ) if not accounts.exists(): raise CommandError( f"Could not find account for {exchange} with {email} email" ) for account in accounts: if not all([account.api_key, account.api_secret]): raise CommandError( "Wrong account, check that API_KEY and API_SECRET were provided for this account, and they correct." ) bittrex = Bittrex( account.api_key, account.api_secret, # api_version=API_V2_0 api_version=API_V1_1 ) response = bittrex.get_order_history() orders = response.get('result') if orders is None: self.stdout.write(f'There no new orders: API response - {response}') self.save_orders(account, orders) self.stdout.write('Done')
class TestBittrexAccountAPI(unittest.TestCase): def setUp(self): self.bittrex = Bittrex() def test_get_balances(self): actual = self.bittrex.get_balances() test_basic_response(self, actual, 'get_balances') def test_get_balance(self): self.assertRaises(TypeError, self.bittrex.get_balance) actual = self.bittrex.get_balance('BTC') test_basic_response(self, actual, 'get_balance') invalid_actual = self.bittrex.get_balance('Invalid currency') test_failed_response(self, invalid_actual, 'get_balance') def test_get_deposit_address(self): self.assertRaises(TypeError, self.bittrex.get_deposit_address) actual = self.bittrex.get_deposit_address('BTC') test_basic_response(self, actual, 'get_deposit_address') invalid_actual = self.bittrex.get_deposit_address('Invalid currency') test_failed_response(self, invalid_actual, 'get_deposit_address') def test_withdraw(self): self.assertRaises(TypeError, self.bittrex.withdraw) def test_get_order(self): self.assertRaises(TypeError, self.bittrex.get_order) actual = self.bittrex.get_order('test') test_response_structure(self, actual, 'get_order') def test_get_order_history(self): actual = self.bittrex.get_order_history() test_basic_response(self, actual, 'get_order_history') actual = self.bittrex.get_order_history('BTC-LTC') test_basic_response(self, actual, 'get_order_history') def test_get_withdrawal_historyself(self): actual = self.bittrex.get_withdrawal_history() test_basic_response(self, actual, 'get_withdrawal_history') actual = self.bittrex.get_withdrawal_history('BTC') test_basic_response(self, actual, 'get_withdrawal_history') def test_get_deposit_history(self): actual = self.bittrex.get_deposit_history() test_basic_response(self, actual, 'get_deposit_history') actual = self.bittrex.get_deposit_history('BTC') test_basic_response(self, actual, 'get_deposit_history')
class TestBittrexV20AccountAPI(unittest.TestCase): """ Integration tests for the Bittrex Account API. * These will fail in the absence of an internet connection or if bittrex API goes down. * They require a valid API key and secret issued by Bittrex. * They also require the presence of a JSON file called secrets.json. It is structured as such: { "key": "12341253456345", "secret": "3345745634234534" } """ def setUp(self): with open("secrets.json") as secrets_file: self.secrets = json.load(secrets_file) secrets_file.close() self.bittrex = Bittrex(self.secrets['key'], self.secrets['secret'], api_version=API_V2_0) def test_handles_invalid_key_or_secret(self): self.bittrex = Bittrex('invalidkey', self.secrets['secret'], api_version=API_V2_0) actual = self.bittrex.get_balance('BTC') test_auth_basic_failures(self, actual, 'Invalid key, valid secret') self.bittrex = Bittrex(None, self.secrets['secret'], api_version=API_V2_0) actual = self.bittrex.get_balance('BTC') test_auth_basic_failures(self, actual, 'None key, valid secret') self.bittrex = Bittrex(self.secrets['key'], 'invalidsecret', api_version=API_V2_0) actual = self.bittrex.get_balance('BTC') test_auth_basic_failures(self, actual, 'valid key, invalid secret') self.bittrex = Bittrex(self.secrets['key'], None, api_version=API_V2_0) actual = self.bittrex.get_balance('BTC') test_auth_basic_failures(self, actual, 'valid key, None secret') self.bittrex = Bittrex('invalidkey', 'invalidsecret', api_version=API_V2_0) actual = self.bittrex.get_balance('BTC') test_auth_basic_failures(self, actual, 'invalid key, invalid secret') def test_get_openorders(self): actual = self.bittrex.get_open_orders('BTC-LTC') test_basic_response(self, actual, "get_openorders") self.assertTrue(isinstance(actual['result'], list), "result is not a list") def test_get_balances(self): actual = self.bittrex.get_balances() test_basic_response(self, actual, "get_balances") self.assertTrue(isinstance(actual['result'], list), "result is not a list") @unittest.skip( "the return result is an empty dict. API bug? the 2.0 get_balances works as expected" ) def test_get_balance(self): actual = self.bittrex.get_balance('BTC') test_basic_response(self, actual, "get_balance") self.assertTrue(isinstance(actual['result'], dict), "result is not a dict") self.assertEqual( actual['result']['Currency'], "BTC", "requested currency {0:s} does not match returned currency {1:s}". format("BTC", actual['result']['Currency'])) @unittest.skip("my testing account is acting funny this should work") def test_get_depositaddress(self): actual = self.bittrex.get_deposit_address('BTC') test_basic_response(self, actual, "get_deposit_address") def test_get_order_history_all_markets(self): actual = self.bittrex.get_order_history() test_basic_response(self, actual, "get_order_history") self.assertIsInstance(actual['result'], list, "result is not a list") def test_get_order_history_one_market(self): actual = self.bittrex.get_order_history(market='BTC-LTC') test_basic_response(self, actual, "get_order_history") self.assertIsInstance(actual['result'], list, "result is not a list") def test_get_withdrawlhistory_all_currencies(self): actual = self.bittrex.get_withdrawal_history() test_basic_response(self, actual, "get_withdrawal_history") self.assertIsInstance(actual['result'], list, "result is not a list") def test_get_withdrawlhistory_one_currency(self): actual = self.bittrex.get_withdrawal_history('BTC') test_basic_response(self, actual, "get_withdrawal_history") self.assertIsInstance(actual['result'], list, "result is not a list") def test_get_deposithistory_all_currencies(self): actual = self.bittrex.get_deposit_history() test_basic_response(self, actual, "get_deposit_history") self.assertIsInstance(actual['result'], list, "result is not a list") def test_get_deposithistory_one_currency(self): actual = self.bittrex.get_deposit_history('BTC') test_basic_response(self, actual, "get_deposit_history") self.assertIsInstance(actual['result'], list, "result is not a list") def test_get_pending_withdrawals_all_currencies(self): actual = self.bittrex.get_pending_withdrawals() test_basic_response(self, actual, "get_pending_withdrawals") self.assertIsInstance(actual['result'], list, "result is not a list") def test_get_pending_withdrawals_one_currency(self): actual = self.bittrex.get_pending_withdrawals('BTC') test_basic_response(self, actual, "get_pending_withdrawals") self.assertIsInstance(actual['result'], list, "result is not a list") def test_get_pending_deposits_all_currencies(self): actual = self.bittrex.get_pending_deposits() test_basic_response(self, actual, "get_pending_deposits") self.assertIsInstance(actual['result'], list, "result is not a list") def test_get_pending_deposits_one_currency(self): actual = self.bittrex.get_pending_deposits('BTC') test_basic_response(self, actual, "get_pending_deposits") self.assertIsInstance(actual['result'], list, "result is not a list") def test_generate_deposit_address(self): actual = self.bittrex.generate_deposit_address(currency='BTC') test_basic_response(self, actual, "generate_deposit_address") self.assertIsInstance(actual['result'], list, "result is not a list")
class TestBittrexV11AccountAPI(unittest.TestCase): """ Integration tests for the Bittrex Account API. * These will fail in the absence of an internet connection or if bittrex API goes down. * They require a valid API key and secret issued by Bittrex. * They also require the presence of a JSON file called secrets.json. It is structured as such: { "key": "12341253456345", "secret": "3345745634234534" } """ def setUp(self): with open("secrets.json") as secrets_file: self.secrets = json.load(secrets_file) secrets_file.close() self.bittrex = Bittrex(self.secrets['key'], self.secrets['secret']) def test_handles_invalid_key_or_secret(self): self.bittrex = Bittrex('invalidkey', self.secrets['secret']) actual = self.bittrex.get_balance('BTC') test_auth_basic_failures(self, actual, 'Invalid key, valid secret') self.bittrex = Bittrex(None, self.secrets['secret']) actual = self.bittrex.get_balance('BTC') test_auth_basic_failures(self, actual, 'None key, valid secret') self.bittrex = Bittrex(self.secrets['key'], 'invalidsecret') actual = self.bittrex.get_balance('BTC') test_auth_basic_failures(self, actual, 'valid key, invalid secret') self.bittrex = Bittrex(self.secrets['key'], None) actual = self.bittrex.get_balance('BTC') test_auth_basic_failures(self, actual, 'valid key, None secret') self.bittrex = Bittrex('invalidkey', 'invalidsecret') actual = self.bittrex.get_balance('BTC') test_auth_basic_failures(self, actual, 'invalid key, invalid secret') def test_get_openorders(self): actual = self.bittrex.get_open_orders('BTC-LTC') test_basic_response(self, actual, "get_openorders") self.assertTrue(isinstance(actual['result'], list), "result is not a list") def test_get_balances(self): actual = self.bittrex.get_balances() test_basic_response(self, actual, "get_balances") self.assertTrue(isinstance(actual['result'], list), "result is not a list") def test_get_balance(self): actual = self.bittrex.get_balance('BTC') test_basic_response(self, actual, "get_balance") self.assertTrue(isinstance(actual['result'], dict), "result is not a dict") self.assertEqual( actual['result']['Currency'], "BTC", "requested currency {0:s} does not match returned currency {1:s}". format("BTC", actual['result']['Currency'])) def test_get_depositaddress(self): actual = self.bittrex.get_deposit_address('BTC') if not actual['success']: self.assertTrue(actual['message'], 'ADDRESS_GENERATING') else: test_basic_response(self, actual, "get_deposit_address") def test_get_order_history_all_markets(self): actual = self.bittrex.get_order_history() test_basic_response(self, actual, "get_order_history") self.assertIsInstance(actual['result'], list, "result is not a list") def test_get_order_history_one_market(self): actual = self.bittrex.get_order_history(market='BTC-LTC') test_basic_response(self, actual, "get_order_history") self.assertIsInstance(actual['result'], list, "result is not a list") def test_get_withdrawlhistory_all_currencies(self): actual = self.bittrex.get_withdrawal_history() test_basic_response(self, actual, "get_withdrawal_history") self.assertIsInstance(actual['result'], list, "result is not a list") def test_get_withdrawlhistory_one_currency(self): actual = self.bittrex.get_withdrawal_history('BTC') test_basic_response(self, actual, "get_withdrawal_history") self.assertIsInstance(actual['result'], list, "result is not a list") def test_get_deposithistory_all_currencies(self): actual = self.bittrex.get_deposit_history() test_basic_response(self, actual, "get_deposit_history") self.assertIsInstance(actual['result'], list, "result is not a list") def test_get_deposithistory_one_currency(self): actual = self.bittrex.get_deposit_history('BTC') test_basic_response(self, actual, "get_deposit_history") self.assertIsInstance(actual['result'], list, "result is not a list") def test_get_pending_withdrawals(self): self.assertRaisesRegexp(Exception, 'method call not available', self.bittrex.get_pending_withdrawals) def test_get_pending_deposits(self): self.assertRaisesRegexp(Exception, 'method call not available', self.bittrex.get_pending_deposits) def test_generate_deposit_address(self): self.assertRaisesRegexp(Exception, 'method call not available', self.bittrex.generate_deposit_address, currency='BTC')
class CryptoArb(object): """ Integration tests for the Bittrex Account API. * These will fail in the absence of an internet connection or if bittrex API goes down. * They require a valid API key and secret issued by Bittrex. * They also require the presence of a JSON file called secrets.json. It is structured as such: { "key": "12341253456345", "secret": "3345745634234534" } """ def setUp(self): with open("secrets.json") as secrets_file: self.secrets = json.load(secrets_file) secrets_file.close() self.bittrex = Bittrex(self.secrets['key'], self.secrets['secret']) def test(self): desiredResult = .95 ## ETHEREUM btcResult = 0 LoopNumber = 1 while btcResult < desiredResult: markets = self.bittrex.get_market_summaries() marketCount = len(markets["result"]) print("Start - " + str(LoopNumber)) btcCount = 0 ethCount = 0 ### ~~ Filling the BTC-ALT Matrix ~~ ### # Counting the number of BTC Currency Pairs btcLoopCount = 0 while btcLoopCount < marketCount: if "BTC-" in markets["result"][btcLoopCount]["MarketName"]: btcCount = btcCount + 1 btcLoopCount = btcLoopCount + 1 # Creating the BTC pair-exchange matrix btcCol, btcRow = 2, btcCount BTCMatrix = [[0 for x in range(btcCol)] for y in range(btcRow)] # Filling the BTC Matrix btcLoopCount = 0 btcMatrixRowCount = 0 while btcLoopCount < marketCount: if "BTC-" in markets["result"][btcLoopCount]["MarketName"]: BTCMatrix[btcMatrixRowCount][0] = markets["result"][ btcLoopCount]["MarketName"] BTCMatrix[btcMatrixRowCount][1] = markets["result"][ btcLoopCount]["Ask"] btcMatrixRowCount = btcMatrixRowCount + 1 btcLoopCount = btcLoopCount + 1 ### ~~ Filling the ETH-ALT Matrix ~~ ### # Counting the number of ETH Currency Pairs ethLoopCount = 0 while ethLoopCount < marketCount: if "ETH-" in markets["result"][ethLoopCount]["MarketName"]: ethCount = ethCount + 1 ethLoopCount = ethLoopCount + 1 # Creating the ETH pair-exchange matrix ethCol, ethRow = 2, ethCount ETHMatrix = [[0 for x in range(ethCol)] for y in range(ethRow)] # Filling the ETH Matrix ethLoopCount = 0 ethMatrixRowCount = 0 while ethLoopCount < marketCount: if "ETH-" in markets["result"][ethLoopCount]["MarketName"]: ETHMatrix[ethMatrixRowCount][0] = markets["result"][ ethLoopCount]["MarketName"] ETHMatrix[ethMatrixRowCount][1] = markets["result"][ ethLoopCount]["Bid"] ethMatrixRowCount = ethMatrixRowCount + 1 ethLoopCount = ethLoopCount + 1 btc_ethTick = self.bittrex.get_ticker("BTC-ETH") btc_eth_BTC = btc_ethTick["result"]["Bid"] # ~~~ Comparing Bitcoin Arbitrage Returns ~~~ # arbBTCPairs = [] arbBTCReturn = [] arbBTCTestReturn = [] arbBTCRow = 0 for btcAlt in BTCMatrix: for ethAlt in ETHMatrix: if ethAlt[0][4:] == btcAlt[0][4:]: btcResult = 0 #arbBTCPairs.append(str(btcAlt[0]) + " > " + str(ethAlt[0]) + " > BTC_ETH") arbPath = str(btcAlt[0]) + " > " + str( ethAlt[0]) + " > BTC_ETH" btcAltDiff = 0.0000007 altEthDiff = -0.0000002 ethBtcDiff = -0.000001 # Forumla to check returns print("BTC -> Alt: " + str(btcAlt[1])) btc_altX = float(btcAlt[1] + btcAltDiff) print("Alt -> ETH: " + str(ethAlt[1])) eth_altX = float(ethAlt[1] + altEthDiff) print("ETH -> BTC: " + str(btc_eth_BTC)) btc_ethX = float(btc_eth_BTC + ethBtcDiff) #test1 = float(btcAlt[1] - 0.00000001) #test2 = float(ethAlt[1] - 0.00000001) #test3 = float(btc_eth_BTC - 0.0000004) print( str(btcAlt[0]) + " > " + str(ethAlt[0]) + " > BTC_ETH") btcUnits = 1 print("BTC = " + str(btcUnits)) altUnits = round(((btcUnits / 1.0025) / btc_altX), 8) #testaltUnits = round(((btcUnits / 1.0025) / test1), 8) print("Alt Units = " + str(altUnits) + " (" + str(btc_altX) + ")") #print("Test Alt Units = " + str(testaltUnits) + " (" + str(test1) + ")") ethUnits = round( ((altUnits - (altUnits * 0.0025)) * eth_altX), 8) #testethUnits = round(((testaltUnits - (testaltUnits * 0.0025)) * test2), 8) print("ETH Units = " + str(ethUnits) + " (" + str(eth_altX) + ")") #print("Test ETH Units = " + str(testethUnits) + " (" + str(test2) + ")") btcResult = round( ((ethUnits - (ethUnits * 0.0025)) * btc_ethX), 8) #testbtcResult = round(((testethUnits - (testethUnits * 0.0025)) * test3), 8) print("BTC Result = " + str(btcResult) + " (" + str(btc_ethX) + ")") #print("Test BTC Result = " + str(testbtcResult) + " (" + str(test3) + ")") print("") #arbBTCReturn.append(btcResult) #arbBTCTestReturn.append(testbtcResult) print(btcAlt[0]) if (btcResult ) >= desiredResult and btcAlt[0] != "BTC-SALT": print("!! Desired Result Reached !!") break arbBTCRow = arbBTCRow + 1 if (btcResult) >= desiredResult and btcAlt[0] != "BTC-SALT": break print("") # If desired result is not reached empty the lists to start again if btcResult <= desiredResult: BTCMatrix[:] = [] ETHMatrix[:] = [] arbBTCPairs[:] = [] arbBTCReturn[:] = [] LoopNumber = LoopNumber + 1 # Loops if return isn't good enough i.e. > 1.005 # Loop has been exited because return is good enough # If statement is final check to make sure return is good enough if float(btcResult) > desiredResult and btcAlt[0] != "BTC-SALT": print("Arb Return = " + str(btcResult)) print("begin timer") startTime = time.time() # Path of the arb which yiels return i.e. BTC -> ALT -> ETH -> BTC #print(arbPath) # Getting name of Alt if len(arbPath) == 25: alt = arbPath[4:6] print("Alt = " + alt) elif len(arbPath) == 27: alt = arbPath[4:7] print("Alt = " + alt) elif len(arbPath) == 29: alt = arbPath[4:8] print("Alt = " + alt) elif len(arbPath) == 31: alt = arbPath[4:9] print("Alt = " + alt) else: print("Wrong Number Letters " + len(arbPath)) print("Time elapsed " + str(time.time() - startTime)) # Begin Buy Process orderBTCALTBook = self.bittrex.get_orderbook( "BTC-" + str(alt), "sell") print("") #BTCBal = self.bittrex.get_balance("BTC") #if str(BTCBal["result"]["Balance"]) == "None": # principle = 0 #else: # principle = float(BTCBal["result"]["Balance"]) principle = 0.00065 print("Principle = " + str(principle)) AltQuantity = 0 ETHQuantity = 0 BTCQuantity = 0 market = "BTC-" + alt print("Market = " + market) print("") actBtcAltRate = 0 actAltEthRate = 0 actEthBtcRate = 0 btcOrderCount = 0 while principle > 0: print("BTC -> " + str(alt) + " Order " + str(btcOrderCount + 1) + ": Principle = " + str(principle)) askQuantity = orderBTCALTBook["result"][btcOrderCount][ "Quantity"] askRate = orderBTCALTBook["result"][btcOrderCount]["Rate"] askTotal = askQuantity * askRate print("-- Order Details: --") print("---- Ask Quantity = " + str(askQuantity)) print("---- Ask Rate = " + str(askRate)) print("---- Ask Total = " + str(askTotal)) print("---- Principle = " + str(principle)) print("") if askTotal > principle: print("---- Executing full final trade...") tradeQuantity = math.floor( ((principle / 1.0025) / askRate) * 100000000) / 100000000 print("---- Trade Quantity = " + str(tradeQuantity) + " (" + str(principle / 1.0025) + " / " + str(askRate) + ")") # Execute full or remainder of trade AltQuantity = AltQuantity + tradeQuantity print("---- BUY " + str(AltQuantity) + " " + str(alt) + " @ " + str(askRate) + "BTC = " + str(round((AltQuantity * askRate), 8))) altBuy = self.bittrex.buy_limit(market, AltQuantity, askRate) print("---- " + str(altBuy)) actBtcAltRate = askRate # I can delete this because I have a more accurate below from get_order_history altBuy = True break else: # Execute a portion of the trade print("---- Partial Trade - CANCEL ... ") print("---- BUY " + str(askQuantity) + str(alt) + " @ " + str(askRate) + " BTC = " + str(round((askQuantity * askRate), 8))) AltQuantity = AltQuantity + askQuantity principle = principle - askTotal break #buy = self.bittrex.buy_limit(market, askQuantity, askRate) #print(buy) #principle = (principle * 0.9975) - askTotal # execute trade btcOrderCount = btcOrderCount + 1 print("") print(str(alt) + " Quantity = " + str(AltQuantity)) firstTrade = time.time() - startTime secondTrade = 0 finalTrade = 0 print("Time since arb calc = " + str(firstTrade)) print("") if altBuy == True: orderETHALTBook = self.bittrex.get_orderbook( "ETH-" + str(alt), "buy") market = "ETH-" + alt ogAltQuantity = AltQuantity altOrderCount = 0 while AltQuantity > 0: print( str(alt) + " -> ETH Order " + str(altOrderCount + 1) + ": Principle = " + str(AltQuantity)) bidQuantity = orderETHALTBook["result"][altOrderCount][ "Quantity"] bidRate = orderETHALTBook["result"][altOrderCount]["Rate"] bidTotal = bidQuantity * bidRate print("-- Order Details: --") print("---- Bid Quantity = " + str(bidQuantity)) print("---- Bid Rate = " + str(bidRate)) print("---- Bid Total = " + str(bidTotal)) print("---- Alt Quantity = " + str(AltQuantity)) print("") if bidQuantity > AltQuantity: print("Executing full final trade...") tradeQuantity = math.floor( ((AltQuantity * 0.9975) * bidRate) * 100000000) / 100000000 print("---- Trade Quantity = " + str(tradeQuantity) + " (" + str(AltQuantity) + " * " + str(bidRate) + ")") # Execute full or remainder of trade print("---- SELL " + str(ogAltQuantity) + " " + str(alt) + " @ " + str(bidRate) + "ETH = " + str(tradeQuantity)) ETHQuantity = ETHQuantity + tradeQuantity altSell = self.bittrex.sell_limit( market, ogAltQuantity, bidRate) print("---- " + str(altSell)) actAltEthRate = bidRate # I can delete this because I have a more accurate below from get_order_history altSell = True break else: # Execute a portion of the trade print("---- Executing partial trade... " + str(bidQuantity) + str(alt) + " @ " + str(bidRate) + "ETH = " + str(bidQuantity * bidRate)) ETHQuantity = (ETHQuantity + bidTotal) * 0.9975 sell = self.bittrex.sell_limit(market, bidQuantity, bidRate) print(sell) AltQuantity = AltQuantity - bidQuantity # execute trade print("") altOrderCount = altOrderCount + 1 if altSell == True: print("") print("ETH Quantity = " + str(ETHQuantity)) secondTrade = time.time() - startTime print("Time since arb calc = " + str(secondTrade)) print("") orderBTCETHBook = self.bittrex.get_orderbook( "BTC-ETH", "buy") ogETHQuantity = ETHQuantity market = "BTC-ETH" ethOrderCount = 0 while ETHQuantity > 0: print("ETH -> BTC Order " + str(ethOrderCount + 1) + ": Principle = " + str(ETHQuantity)) bidQuantity = orderBTCETHBook["result"][ethOrderCount][ "Quantity"] bidRate = orderBTCETHBook["result"][ethOrderCount][ "Rate"] bidTotal = bidQuantity * bidRate print("-- Order Details: --") print("---- Bid Quantity = " + str(bidQuantity)) print("---- Bid Rate = " + str(bidRate)) print("---- Bid Total = " + str(bidTotal)) print("---- ETH Quantity = " + str(ETHQuantity)) print("") if bidQuantity > ETHQuantity: print("---- Executing full final trade...") tradeQuantity = math.floor( ((ETHQuantity * 0.9975) * bidRate) * 100000000) / 100000000 print("---- Trade Quantity = " + str(tradeQuantity) + " (" + str(ETHQuantity) + " * " + str(bidRate) + ")") # Execute full or remainder of trade print("---- SELL " + str(ogETHQuantity) + " ETH @ " + str(bidRate) + "BTC = " + str(tradeQuantity)) BTCQuantity = BTCQuantity + tradeQuantity sell = self.bittrex.sell_limit( market, ogETHQuantity, bidRate) print("---- " + str(sell)) actEthBtcRate = bidRate # I can delete this because I have a more accurate below from get_order_history break else: # Execute a portion of the trade print("---- Executing partial trade... " + str(bidQuantity) + "ETH @ " + str(bidRate) + "BTC = " + str(bidQuantity * bidRate)) BTCQuantity = BTCQuantity + bidTotal sell = self.bittrex.sell_limit( market, bidQuantity, bidRate) print(sell) ETHQuantity = ETHQuantity - bidQuantity # execute trade ethOrderCount = ethOrderCount + 1 print(BTCQuantity) finalTrade = time.time() - startTime print("Time since arb calc = " + str(finalTrade)) btcAltMarket = self.bittrex.get_market_summary("BTC-" + str(alt)) btcAltVolume = btcAltMarket["result"][0]["Volume"] altEthMarket = self.bittrex.get_market_summary("ETH-" + str(alt)) altEthVolume = altEthMarket["result"][0]["Volume"] ethBtcMarket = self.bittrex.get_market_summary("BTC-ETH") ethBtcVolume = ethBtcMarket["result"][0]["Volume"] # Grab bittrex Trade Details # 1 - BTC-ALT #tradeDetails = self.bittrex.get_order_history() tradeDetails = self.bittrex.get_order_history() tradeOne = tradeDetails["result"][2] tradeTwo = tradeDetails["result"][1] tradeThree = tradeDetails["result"][0] # Actual Arb Return tradeOneActualValue = tradeOne["Price"] + tradeOne[ "Commission"] tradeThreeActualValue = tradeThree["Price"] + tradeThree[ "Commission"] actualArbReturn = tradeThreeActualValue / tradeOneActualValue # Actual Rates tradeOneActualRate = tradeOne["PricePerUnit"] tradeTwoActualRate = tradeTwo["PricePerUnit"] tradeThreeActualRate = tradeThree["PricePerUnit"] with open('Trade Tracker.csv', 'a', newline='') as csvfile: tracker = csv.writer(csvfile, delimiter=',', quotechar='|', quoting=csv.QUOTE_MINIMAL) tracker.writerow([ arbPath, datetime.datetime.now().strftime( "%Y-%m-%d %H:%M:%S.%f")[:-3], btcResult, actualArbReturn, str(btcAlt[1]), str(btcAltDiff), btcAlt[1] + btcAltDiff, tradeOneActualRate, str(btcAlt[1] - tradeOneActualRate), str(( (btcAlt[1] - tradeOneActualRate) / btcAlt[1]) * 100), str(firstTrade), str(btcAltVolume), str(ethAlt[1]), str(altEthDiff), str(ethAlt[1] + altEthDiff), tradeTwoActualRate, str(ethAlt[1] - tradeTwoActualRate), str(( (ethAlt[1] - tradeTwoActualRate) / ethAlt[1]) * 100), str(secondTrade), str(altEthVolume), str(btc_eth_BTC), str(ethBtcDiff), str(btc_eth_BTC + ethBtcDiff), tradeThreeActualRate, str(btc_eth_BTC - tradeThreeActualRate), str(((btc_eth_BTC - tradeThreeActualRate) / btc_eth_BTC) * 100), str(finalTrade), str(ethBtcVolume) ]) print("Excel Save Successful") db = firebase.database() data = { "Arb Path": arbPath, "Date Time": datetime.datetime.now().strftime( "%Y-%m-%d %H:%M:%S.%f")[:-3], "Principle": principle, "Actual Return": BTCQuantity, "Expected Arb Return": btcResult, "Actual Arb Return": actualArbReturn, "Trade 1 Quoted Rate": str(btcAlt[1]), "Trade 1 Adjustment": str(btcAltDiff), "Trade 1 Adjusted Quote": btcAlt[1] + btcAltDiff, "Trade 1 Actual Rate": tradeOneActualRate, "Trade 1 Actual-Quote Diff": str(btcAlt[1] - tradeOneActualRate), "Trade 1 Actual-Quote % Diff": str(((btcAlt[1] - tradeOneActualRate) / btcAlt[1]) * 100), "Trade 1 Time From Quote": str(firstTrade), "Trade 1 Market Volume": str(btcAltVolume), "Trade 2 Quoted Rate": str(ethAlt[1]), "Trade 2 Adjustment": str(altEthDiff), "Trade 2 Adjusted Quote": str(ethAlt[1] + altEthDiff), "Trade 2 Actual Rate": tradeTwoActualRate, "Trade 2 Actual-Quote Diff": str(ethAlt[1] - tradeTwoActualRate), "Trade 2 Actual-Quote % Diff": str(((ethAlt[1] - tradeTwoActualRate) / ethAlt[1]) * 100), "Trade 2 Time From Quote": str(secondTrade), "Trade 2 Market Volume": str(altEthVolume), "Trade 3 Quoted Rate": str(btc_eth_BTC), "Trade 3 Adjustment": str(ethBtcDiff), "Trade 3 Adjusted Quote": str(btc_eth_BTC + ethBtcDiff), "Trade 3 Actual Rate": tradeThreeActualRate, "Trade 3 Actual-Quote Diff": str(btc_eth_BTC - tradeThreeActualRate), "Trade 3 Actual-Quote % Diff Rate": str(((btc_eth_BTC - tradeThreeActualRate) / btc_eth_BTC) * 100), "Trade 3 Time From Quote": str(finalTrade), "Trade 3 Market Volume": str(ethBtcVolume) } db.child("Successful Transactions").push(data) else: print("ALT -> ETH Fail") else: print("BTC -> ALT Fail")
class bittrex_private: def __init__(self): # self.bittrex_public = Bittrex(None, None) # 公開情報を扱うBittrexオブジェクト self.bittrex_private = Bittrex(KEY, SECRET) # 個人の情報を扱うBittrexオブジェクト # トレード履歴を取得 def get_order_history(self): response = self.bittrex_private.get_order_history() pprint(response) return response # 買い注文を出す # marketに通貨ペア、quantityに注文する量、rateに価格を指定 def buy_alt_coin(self, market, quantity, rate): response = self.bittrex_private.buy_limit(market=market, quantity=quantity, rate=rate) # 成功なら注文id、失敗ならfalseを返す if response['success'] is False: print(response) return False else: return response['result']['uuid'] # 売り注文を出す # marketに通貨ペア、quantityに注文する量、rateに価格を指定 def sell_alt_coin(self, market, quantity, rate): response = self.bittrex_private.sell_limit(market=market, quantity=quantity, rate=rate) # 成功なら注文id、失敗ならfalseを返す if response['success'] is False: print(response) return False else: return response['result']['uuid'] # 注文をキャンセルする def order_cancel(self, uuid): response = self.bittrex_private.cancel(uuid=uuid) # 成功ならtrue、失敗ならfalseを返す print(response) return response['success'] # 注文一覧を取得する def get_orders(self): order_list = [] response = self.bittrex_private.get_open_orders() if response['success'] is False: print(response) return False else: # 注文が1件もない場合 if len(response['result']) == 0: return None for item in response['result']: # 通貨の種類と量、注文IDを抜き出す balance = {} balance['market'] = item['Exchange'] balance['quantity'] = item['Quantity'] balance['uuid'] = item['OrderUuid'] order_list.append(balance) return order_list # 所有している通貨をList型で返す def get_balances(self): balance_list = [] response = self.bittrex_private.get_balances() if response['success'] is False: print(response) return False else: for item in response['result']: # 利用可能な通貨量が0の場合はスキップする if item['Available'] == 0: continue # 通貨の種類と量を抜き出す balance = {} balance['currency'] = item['Currency'] balance['available'] = item['Available'] balance_list.append(balance) return balance_list
class CapitVitaCrypto(CapitVita): def __init__(self, home_path='', num_coins=25, mailing_list=[], debug=False): self.num_coins = num_coins self.mailing_list = mailing_list self.coin_list = [] self.df = [] self.debug = debug self.home_path = home_path self.file_path = home_path + 'crypto-data/' self.volume_sum = [] # bittrex self.B = Bittrex(key, secret) self.b_currencies = [ x['Currency'] for x in self.B.get_currencies()['result'] ] # currencies available to trade in bittrex self.market_summaries = self.B.get_market_summaries()['result'] self.markets = [x['MarketName'] for x in self.market_summaries] # market names self.BTC_markets = [ x for x in self.markets if 'BTC' in x and 'USDT' not in x ] self.ETH_markets = [ x for x in self.markets if 'ETH' in x and 'USDT' not in x ] self.USDT_markets = [x for x in self.markets if 'USDT' in x] self.USDT_BTC = [ x for x in self.market_summaries if x['MarketName'] == 'USDT-BTC' ][-1]['Last'] self.USDT_ETH = [ x for x in self.market_summaries if x['MarketName'] == 'USDT-ETH' ][-1]['Last'] def get_coin_list(self): # get coin list (all coins, some are not tradeable on bittrex) url = 'https://www.cryptocompare.com/api/data/coinlist/' response = urllib2.urlopen(url) data = json.loads(response.read()) self.coin_list = [ x.encode('ascii', 'ignore') for x in data['Data'].keys() ] #print(len(self.coin_list)) # 1507 as of 2017-09-14 def grab_data(self, coin): # get historical OHLC for one cryptocurrency url = 'https://min-api.cryptocompare.com/data/histoday?fsym={}&tsym=USD&limit={}&aggregate=1&e=CCCAGG'.format( coin, 80) response = urllib2.urlopen(url) data = json.loads(response.read()) try: self.df = pd.DataFrame(data['Data']) self.df['date'] = self.df['time'].apply( lambda x: datetime.datetime.fromtimestamp(x)) #self.df.drop(['time', 'volumefrom'], axis = 1) #self.df.columns = ['Adj. Close', 'Adj. High', 'Adj. Low', 'Adj. Open', 'time', 'volumefrom', 'volumeto', 'date'] except KeyError: return False self.volume_sum.append(self.df['volumeto'].iloc[-20:].median()) # generate signals self.df['rsi'] = self.RSI(self.df['close'], 14) self.df['26 ema'] = self.df['close'].ewm(ignore_na=False, min_periods=0, adjust=True, com=26).mean() self.df['12 ema'] = self.df['close'].ewm(ignore_na=False, min_periods=0, adjust=True, com=12).mean() self.df['MACD'] = self.df['12 ema'] - self.df['26 ema'] self.df['MACD signal'] = self.df['MACD'] - self.df['MACD'].ewm( ignore_na=False, min_periods=0, adjust=True, com=9).mean() self.df['MACD_norm'] = self.normalize(self.df['MACD signal']) self.df['MACD_der'] = self.derivative(self.df['MACD_norm']) def get_points(self, coin): try: self.grab_data(coin) ## get the data and store it in self.df if len(self.df) < 20 or self.df['volumeto'].iloc[-20:].median( ) < 850000 * 0.8: # if grab is unsuccessful or below average volume * 0.7, end points = {'admin': -500} else: points = {} mb, tb, bb, = self.bbands(self.df['close']) if self.df['close'].iloc[-1] < (mb.iloc[-1] + bb.iloc[-1]) / 2: points['admin'] = -500 # RSI points (max 50) points['rsi'] = 50 - round( 1.2 * abs(30 - self.df['rsi'].iloc[-1])) # MACD points (max 50) points['macd1'] = round( 25 * self.df['MACD_norm'].iloc[-1] / max([abs(x) for x in self.df['MACD_norm']])) points['macd2'] = round( 25 * self.df['MACD_der'].iloc[-1] / max([abs(x) for x in self.df['MACD_der']])) # candlestick points (max 10) candlestickFactor = 1 patterns = self.detectCandlestickPatterns( self.df['open'][-7:], self.df['close'][-7:], self.df['low'][-7:], self.df['high'][-7:], candlestickFactor) points['candlesticks'] = self.rangeLimit( round(sum([x[2] for x in patterns])), -20, 20) except BufferError as e: #except Exception as e: print('problem: {}'.format(e)) return points def find_coins(self, graph=False, bittrex_currencies_only=True): # start counting duration of script start_time = time.time() print('Initiating log...') # create log ff = open(self.file_path + 'readme.txt', 'w') ff.write(str(datetime.datetime.now())) ff.write('\n') print('Deleting old plots...') # delete old files os.chdir(self.file_path) filelist = glob.glob('*.png') for f in filelist: os.remove(f) os.chdir(self.home_path) print('Fetching coin list...') if bittrex_currencies_only: self.update_B() self.coin_list = self.b_currencies else: self.get_coin_list() if self.debug: self.coin_list = self.coin_list[:30] len_coin_list = len(self.coin_list) print(' {} coins.'.format(len_coin_list)) #print(' Expect script to take approximately {} minutes'.format(round(len_coin_list*1.0613 - 14)/60, 2)) # grab data in batches print('Getting points for {} coins...'.format(len_coin_list)) coin_points = {} for i, coin in enumerate(self.coin_list): if i % (len(self.coin_list) / 25) == 0: print('{}% done'.format( round(100 * float(i) / len(self.coin_list), 1))) try: points = self.get_points(coin) coin_points[coin] = [sum([points[x] for x in points]), points] #except BufferError: except Exception as e: print('failed {} because {}'.format(coin, e)) original_len_coin_list = len(coin_points) print('Sorting coins...') # sort stocks by point system sorted_coins = sorted(coin_points.items(), key=itemgetter(1), reverse=True)[:self.num_coins] print(sorted_coins) if graph: print('Graphing coins...') for coin in [x[0] for x in sorted_coins]: try: self.graph_data(coin, saveLocation=self.file_path) except BufferError: #except Exception as e: print('failed {} because {}'.format(coin, e)) # write into log ff.write('Cheap coins to invest in for 2 days ~ 1 week: \n\n') ff.write('#\n') for i in sorted_coins: ff.write(i[0] + ': ' + str(round(i[1][0], 1)) + ' ' + str(i[1][1]) + '\n') ff.write('#\n') ff.write('\n\n ' + str(original_len_coin_list) + ' stocks shortened by point system to ' + str(len(sorted_coins)) + ' stocks') ff.write("\n\n--- %s seconds ---" % (round(time.time() - start_time, 2))) ff.write('\n\n\n Capit-Vita Crypto Version 1.1 (2017-09-22)\n\n') ff.write(' - Buying is confirmed to work\n') ff.close() #print(self.volume_sum[-20:]) #print('average volume', sum(self.volume_sum)/len(self.volume_sum)) # median volumeto: 850k # send email if len(self.mailing_list) > 0: send_email(self.file_path, 'Top ' + str(self.num_coins) + ' Coin Prospects', self.mailing_list) ###### remove coin types I currently own my_coins = [x['Currency'] for x in self.B.get_balances()['result']] print('my coins: {}'.format(my_coins)) print('before: {}'.format([x[0] for x in sorted_coins])) sorted_coins = [x for x in sorted_coins if x[0] not in my_coins] print('after: {}'.format([x[0] for x in sorted_coins])) # save wanted coins with open(self.file_path + 'wanted_coins.txt', 'w') as f: f.write('{}, '.format([str(x[0]) for x in sorted_coins])) return sorted_coins def buy_next_coin(self): # save wanted_coins if os.path.isfile(self.file_path + 'wanted_coins.txt'): with open(self.file_path + 'wanted_coins.txt', 'r') as f: data = eval(f.readlines()[0][:-2]) else: return False print(data) def update_B(self): self.b_currencies = [ x['Currency'] for x in self.B.get_currencies()['result'] ] # currencies available to trade in bittrex self.market_summaries = self.B.get_market_summaries()['result'] self.markets = [x['MarketName'] for x in self.market_summaries] # market names self.BTC_markets = [ x for x in self.markets if 'BTC' in x and 'USDT' not in x ] self.ETH_markets = [ x for x in self.markets if 'ETH' in x and 'USDT' not in x ] self.USDT_markets = [x for x in self.markets if 'USDT' in x] self.USDT_BTC = [ x for x in self.market_summaries if x['MarketName'] == 'USDT-BTC' ][-1]['Last'] self.USDT_ETH = [ x for x in self.market_summaries if x['MarketName'] == 'USDT-ETH' ][-1]['Last'] #print len(self.b_currencies) # 277 as of 2017-09-21 def thing(self): BTC_market_prices = [] ETH_market_prices = [] ### create value exchange rate for currency in self.b_currencies: if any(currency in x for x in BTC_markets): last_price = [ x['Last'] for x in self.market_summaries if x['MarketName'] == 'BTC-{}'.format(currency) ] if len(last_price) > 0: BTC_market_prices.append('Last price for {} is ${}'.format( currency, round(last_price[0] * USDT_BTC, 2))) elif any(currency in x for x in ETH_markets): last_price = [ x['Last'] for x in self.market_summaries if x['MarketName'] == 'ETH-{}'.format(currency) ] if len(last_price) > 0: ETH_market_prices.append('Last price for {} is ${}'.format( currency, round(last_price[0] * USDT_ETH, 2))) cnt_in = 0 cnt_not_in = 0 for currency in self.b_currencies: if all(currency not in x for x in self.BTC_markets + self.ETH_markets): cnt_not_in += 1 #print('{} not in any market'.format(currency)) else: cnt_in += 1 #print(cnt_in, cnt_not_in) #203 in market, 74 out of market as of 2017-09-21 ### can only buy and sell on existing markets def my_coins(self): my_coins = [x for x in self.B.get_balances()['result']] print(my_coins) total = 0 print('\n\n----------- My Wallet -----------\n') for coin in my_coins: if coin['Currency'] == 'BTC': print('{} available for {} (${})'.format( coin['Available'], coin['Currency'], round(coin['Available'] * self.USDT_BTC, 2))) total += coin['Available'] * self.USDT_BTC elif any(coin['Currency'] in x for x in self.BTC_markets): BTC_coin_rate = [ x['Last'] for x in self.market_summaries if x['MarketName'] == 'BTC-{}'.format(coin['Currency']) ][0] print('{} available for {} (${})'.format( coin['Available'], coin['Currency'], round(coin['Available'] * self.USDT_BTC * BTC_coin_rate, 2))) total += coin['Available'] * self.USDT_BTC * BTC_coin_rate else: print('{} available for {} (${})'.format( coin['Available'], coin['Currency'], 'hold')) ## add ethereum #return summary return my_coins def total_available_USD(self, BTC_ETH_only=True): balances = self.B.get_balances()['result'] total_USD = 0 for balance in balances: if balance['Balance'] > 0: if balance['Currency'] == 'BTC': total_USD += balance['Balance'] * self.USDT_BTC print('BTC: {}'.format(balance['Balance'] * self.USDT_BTC)) elif balance['Currency'] == 'ETH': total_USD += balance['Balance'] * self.USDT_ETH print('ETH: {}'.format(balance['Balance'] * self.USDT_ETH)) elif not BTC_ETH_only: if any(balance['Currency'] in x for x in self.BTC_markets): to_add = balance['Balance'] * [ x['Last'] for x in self.market_summaries if x['MarketName'] == 'BTC-{}'.format(balance['Currency']) ][0] * self.USDT_BTC total_USD += to_add print('{}: {}'.format(balance['Currency'], to_add)) elif any(balance['Currency'] in x for x in self.ETH_markets): to_add = balance['Balance'] * [ x['Last'] for x in self.market_summaries if x['MarketName'] == 'ETH-{}'.format(balance['Currency']) ][0] * self.USDT_ETH total_USD += to_add print('{}: {}'.format(balance['Currency'], to_add)) # consider only BTC and ETH liquid? print('Total available: {}'.format(total_USD)) return total_USD def buy_altcoin(self, coin): if any(coin in x['Currency'] for x in self.B.get_balances()['result']): print('not buying, already have') return False if any(coin in x for x in self.BTC_markets): market = [x for x in self.BTC_markets if coin in x][0] print(market) available_USD = self.total_available_USD() print('available USD', available_USD) increment_USD = available_USD / 20 print('5% available USD: {}'.format(increment_USD)) BTC_coin_rate = self.B.get_marketsummary( market)['result'][0]['Last'] print('BTC - {} conversion: {}'.format(coin, BTC_coin_rate)) print('BTC - USD conversion: {}'.format(self.USDT_BTC)) print('want to buy {} {} coins'.format( increment_USD / self.USDT_BTC / BTC_coin_rate, coin)) print('buying {}: {}'.format( coin, self.B.buy_limit(market, increment_USD / self.USDT_BTC / BTC_coin_rate, BTC_coin_rate))) # market, quantity, rate def sell_altcoin(self, order): # takes a buy order and reverses it (sell) coin = order['Exchange'][4:] if any(coin in x for x in self.BTC_markets): market = [x for x in self.BTC_markets if coin in x][0] elif any(coin in x for x in self.ETH_markets): market = [x for x in self.ETH_markets if coin in x][0] coin_rate = self.B.get_marketsummary(market)['result'][0]['Last'] quantity = order['Quantity'] if all(coin not in x['Currency'] for x in self.B.get_balances()['result']): print('cannot sell, do not have') return False #print('selling {}: {}'.format(market, self.B.sell_limit(market, quantity, coin_rate))) # market, quantity, rate def coin_to_USD(self, order): coin = order['Exchange'][4:] market = [x for x in self.BTC_markets if coin in x][0] BTC_coin_rate = self.B.get_marketsummary(market)['result'][0]['Last'] if coin == 'BTC': return order['Quantity'] * self.USDT_BTC elif coin == 'ETH': pass elif any([coin in x for x in self.BTC_markets]): last_price = [ x['Last'] for x in self.market_summaries if coin in x['MarketName'] ] return order['Quantity'] * self.USDT_BTC * BTC_coin_rate elif any(coin in x for x in self.ETH_markets): pass else: pass def my_coin_price_change(self): orders = self.B.get_order_history()['result'] ## remove orders that I don't own orders = [x for x in orders] print(orders) self.update_B() for order in orders: bought_at = round( order['Quantity'] * order['PricePerUnit'] * self.USDT_BTC, 2) currently = round(self.coin_to_USD(order), 2) perc_change = round((currently / bought_at - 1) * 100, 1) timestamp = datetime.datetime.now() - datetime.datetime.strptime( order['TimeStamp'], '%Y-%m-%dT%H:%M:%S.%f') print( ' bought {} ({} ago) for relative BTC value of ${}, currently ${}: {}% change' .format(order['Exchange'][4:], timestamp, bought_at, currently, perc_change)) ### formula for selling: # cost of trade = 0.35% x 2 = 0.7% # have an open sell order at 10% -> 9.3% up # if simulataneous orders are possible, have an open sell order at -10% -> 10.7% down # if the coin is older than 5 days, lower the upper sell limit by 2% to 8% -> 7.3% up # every 3 days after that lower by 2% until @ 2% lower_limit = -10 if timestamp < datetime.timedelta(days=5): upper_limit = 10 elif timestamp < datetime.timedelta(days=8): # approx one week upper_limit = 8 elif timestamp < datetime.timedelta(days=11): upper_limit = 6 elif timestamp < datetime.timedelta(days=14): # two weeks upper_limit = 4 elif timestamp < datetime.timedelta(days=17): upper_limit = 2 elif timestamp > datetime.timedelta( days=21): # sell no matter what after 3 weeks upper_limit = -10 if perc_change < lower_limit or perc_change > upper_limit: self.sell_altcoin(order)
count += 1 master_bittrex = Bittrex(api_key=master_api_key, api_secret=master_api_secret) print('Opening Master Account...') master_open_orders = master_bittrex.get_open_orders() if master_open_orders['success']: print('Master Open Orders = ', len(master_open_orders['result'])) else: print( 'Error....', master_open_orders['message'], 'Application cannot run...please correct errors and restart application' ) print('Application will terminate after 10 seconds...') sleep(10) exit() master_order_history = master_bittrex.get_order_history() print('Master History Orders = ', len(master_order_history['result'])) print('Opening Slave Accounts...') slave_number = 0 for i in slave_api: slave_bittrex = Bittrex(api_key=i[0], api_secret=i[1]) slave_open_orders = slave_bittrex.get_open_orders() slave_number += 1 if slave_open_orders['success']: print('Slave', slave_number, 'Success') else: print( 'Error....Slave', slave_number, slave_open_orders['message'], 'Application cannot run...please correct errors and restart application' ) print('Application will terminate after 10 seconds...')