btcpayserver/BTCPayServer.Tests/UnitTest1.cs
Andrew Camilleri a6ee337ed0 more coverage
2018-05-15 16:25:43 +02:00

1603 lines
75 KiB
C#

using BTCPayServer.Tests.Logging;
using System.Linq;
using NBitcoin;
using NBitcoin.DataEncoders;
using NBitcoin.Payment;
using NBitpayClient;
using System;
using System.Threading;
using Xunit;
using Xunit.Abstractions;
using Xunit.Sdk;
using BTCPayServer.Services.Invoices;
using Newtonsoft.Json;
using System.IO;
using Newtonsoft.Json.Linq;
using BTCPayServer.Controllers;
using Microsoft.AspNetCore.Mvc;
using BTCPayServer.Authentication;
using System.Diagnostics;
using Microsoft.EntityFrameworkCore.Extensions;
using BTCPayServer.Data;
using Microsoft.EntityFrameworkCore;
using BTCPayServer.Services.Rates;
using Microsoft.Extensions.Caching.Memory;
using System.Collections.Generic;
using BTCPayServer.Models.StoreViewModels;
using System.Threading.Tasks;
using System.Globalization;
using BTCPayServer.Payments;
using BTCPayServer.Payments.Bitcoin;
using BTCPayServer.HostedServices;
using BTCPayServer.Payments.Lightning;
using BTCPayServer.Models.AppViewModels;
using BTCPayServer.Services.Apps;
using BTCPayServer.Services.Stores;
using System.Net.Http;
using System.Text;
using BTCPayServer.Rating;
using BTCPayServer.Validation;
using ExchangeSharp;
namespace BTCPayServer.Tests
{
public class UnitTest1
{
public UnitTest1(ITestOutputHelper helper)
{
Logs.Tester = new XUnitLog(helper) { Name = "Tests" };
Logs.LogProvider = new XUnitLogProvider(helper);
}
[Fact]
public void CanHandleUriValidation()
{
var attribute = new UriAttribute();
Assert.True(attribute.IsValid("http://localhost"));
Assert.True(attribute.IsValid("http://localhost:1234"));
Assert.True(attribute.IsValid("https://localhost"));
Assert.True(attribute.IsValid("https://127.0.0.1"));
Assert.True(attribute.IsValid("http://127.0.0.1"));
Assert.True(attribute.IsValid("http://127.0.0.1:1234"));
Assert.True(attribute.IsValid("http://gozo.com"));
Assert.True(attribute.IsValid("https://gozo.com"));
Assert.True(attribute.IsValid("https://gozo.com:1234"));
Assert.True(attribute.IsValid("https://gozo.com:1234/test.css"));
Assert.True(attribute.IsValid("https://gozo.com:1234/test.png"));
Assert.False(attribute.IsValid("Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud e"));
Assert.False(attribute.IsValid(2));
Assert.False(attribute.IsValid("http://"));
Assert.False(attribute.IsValid("httpdsadsa.com"));
}
[Fact]
public void CanCalculateCryptoDue2()
{
var dummy = new Key().PubKey.GetAddress(Network.RegTest).ToString();
#pragma warning disable CS0618
InvoiceEntity invoiceEntity = new InvoiceEntity();
invoiceEntity.Payments = new System.Collections.Generic.List<PaymentEntity>();
invoiceEntity.ProductInformation = new ProductInformation() { Price = 100 };
PaymentMethodDictionary paymentMethods = new PaymentMethodDictionary();
paymentMethods.Add(new PaymentMethod()
{
CryptoCode = "BTC",
Rate = 10513.44m,
}.SetPaymentMethodDetails(new BTCPayServer.Payments.Bitcoin.BitcoinLikeOnChainPaymentMethod()
{
TxFee = Money.Coins(0.00000100m),
DepositAddress = dummy
}));
paymentMethods.Add(new PaymentMethod()
{
CryptoCode = "LTC",
Rate = 216.79m
}.SetPaymentMethodDetails(new BTCPayServer.Payments.Bitcoin.BitcoinLikeOnChainPaymentMethod()
{
TxFee = Money.Coins(0.00010000m),
DepositAddress = dummy
}));
invoiceEntity.SetPaymentMethods(paymentMethods);
var btc = invoiceEntity.GetPaymentMethod(new PaymentMethodId("BTC", PaymentTypes.BTCLike), null);
var accounting = btc.Calculate();
invoiceEntity.Payments.Add(new PaymentEntity() { Accounted = true, CryptoCode = "BTC" }.SetCryptoPaymentData(new BitcoinLikePaymentData()
{
Output = new TxOut() { Value = Money.Coins(0.00151263m) }
}));
accounting = btc.Calculate();
invoiceEntity.Payments.Add(new PaymentEntity() { Accounted = true, CryptoCode = "BTC" }.SetCryptoPaymentData(new BitcoinLikePaymentData()
{
Output = new TxOut() { Value = accounting.Due }
}));
accounting = btc.Calculate();
Assert.Equal(Money.Zero, accounting.Due);
Assert.Equal(Money.Zero, accounting.DueUncapped);
var ltc = invoiceEntity.GetPaymentMethod(new PaymentMethodId("LTC", PaymentTypes.BTCLike), null);
accounting = ltc.Calculate();
Assert.Equal(Money.Zero, accounting.Due);
// LTC might have over paid due to BTC paying above what it should (round 1 satoshi up)
Assert.True(accounting.DueUncapped < Money.Zero);
var paymentMethod = InvoiceWatcher.GetNearestClearedPayment(paymentMethods, out var accounting2, null);
Assert.Equal(btc.CryptoCode, paymentMethod.CryptoCode);
#pragma warning restore CS0618
}
[Fact]
public void CanCalculateCryptoDue()
{
var entity = new InvoiceEntity();
#pragma warning disable CS0618
entity.Payments = new System.Collections.Generic.List<PaymentEntity>();
entity.SetPaymentMethod(new PaymentMethod() { CryptoCode = "BTC", Rate = 5000, TxFee = Money.Coins(0.1m) });
entity.ProductInformation = new ProductInformation() { Price = 5000 };
var paymentMethod = entity.GetPaymentMethods(null).TryGet("BTC", PaymentTypes.BTCLike);
var accounting = paymentMethod.Calculate();
Assert.Equal(Money.Coins(1.1m), accounting.Due);
Assert.Equal(Money.Coins(1.1m), accounting.TotalDue);
entity.Payments.Add(new PaymentEntity() { Output = new TxOut(Money.Coins(0.5m), new Key()), Accounted = true });
accounting = paymentMethod.Calculate();
//Since we need to spend one more txout, it should be 1.1 - 0,5 + 0.1
Assert.Equal(Money.Coins(0.7m), accounting.Due);
Assert.Equal(Money.Coins(1.2m), accounting.TotalDue);
entity.Payments.Add(new PaymentEntity() { Output = new TxOut(Money.Coins(0.2m), new Key()), Accounted = true });
accounting = paymentMethod.Calculate();
Assert.Equal(Money.Coins(0.6m), accounting.Due);
Assert.Equal(Money.Coins(1.3m), accounting.TotalDue);
entity.Payments.Add(new PaymentEntity() { Output = new TxOut(Money.Coins(0.6m), new Key()), Accounted = true });
accounting = paymentMethod.Calculate();
Assert.Equal(Money.Zero, accounting.Due);
Assert.Equal(Money.Coins(1.3m), accounting.TotalDue);
entity.Payments.Add(new PaymentEntity() { Output = new TxOut(Money.Coins(0.2m), new Key()), Accounted = true });
accounting = paymentMethod.Calculate();
Assert.Equal(Money.Zero, accounting.Due);
Assert.Equal(Money.Coins(1.3m), accounting.TotalDue);
entity = new InvoiceEntity();
entity.ProductInformation = new ProductInformation() { Price = 5000 };
PaymentMethodDictionary paymentMethods = new PaymentMethodDictionary();
paymentMethods.Add(new PaymentMethod()
{
CryptoCode = "BTC",
Rate = 1000,
TxFee = Money.Coins(0.1m)
});
paymentMethods.Add(new PaymentMethod()
{
CryptoCode = "LTC",
Rate = 500,
TxFee = Money.Coins(0.01m)
});
entity.SetPaymentMethods(paymentMethods);
entity.Payments = new List<PaymentEntity>();
paymentMethod = entity.GetPaymentMethod(new PaymentMethodId("BTC", PaymentTypes.BTCLike), null);
accounting = paymentMethod.Calculate();
Assert.Equal(Money.Coins(5.1m), accounting.Due);
paymentMethod = entity.GetPaymentMethod(new PaymentMethodId("LTC", PaymentTypes.BTCLike), null);
accounting = paymentMethod.Calculate();
Assert.Equal(Money.Coins(10.01m), accounting.TotalDue);
entity.Payments.Add(new PaymentEntity() { CryptoCode = "BTC", Output = new TxOut(Money.Coins(1.0m), new Key()), Accounted = true });
paymentMethod = entity.GetPaymentMethod(new PaymentMethodId("BTC", PaymentTypes.BTCLike), null);
accounting = paymentMethod.Calculate();
Assert.Equal(Money.Coins(4.2m), accounting.Due);
Assert.Equal(Money.Coins(1.0m), accounting.CryptoPaid);
Assert.Equal(Money.Coins(1.0m), accounting.Paid);
Assert.Equal(Money.Coins(5.2m), accounting.TotalDue);
Assert.Equal(2, accounting.TxRequired);
paymentMethod = entity.GetPaymentMethod(new PaymentMethodId("LTC", PaymentTypes.BTCLike), null);
accounting = paymentMethod.Calculate();
Assert.Equal(Money.Coins(10.01m + 0.1m * 2 - 2.0m /* 8.21m */), accounting.Due);
Assert.Equal(Money.Coins(0.0m), accounting.CryptoPaid);
Assert.Equal(Money.Coins(2.0m), accounting.Paid);
Assert.Equal(Money.Coins(10.01m + 0.1m * 2), accounting.TotalDue);
entity.Payments.Add(new PaymentEntity() { CryptoCode = "LTC", Output = new TxOut(Money.Coins(1.0m), new Key()), Accounted = true });
paymentMethod = entity.GetPaymentMethod(new PaymentMethodId("BTC", PaymentTypes.BTCLike), null);
accounting = paymentMethod.Calculate();
Assert.Equal(Money.Coins(4.2m - 0.5m + 0.01m / 2), accounting.Due);
Assert.Equal(Money.Coins(1.0m), accounting.CryptoPaid);
Assert.Equal(Money.Coins(1.5m), accounting.Paid);
Assert.Equal(Money.Coins(5.2m + 0.01m / 2), accounting.TotalDue); // The fee for LTC added
Assert.Equal(2, accounting.TxRequired);
paymentMethod = entity.GetPaymentMethod(new PaymentMethodId("LTC", PaymentTypes.BTCLike), null);
accounting = paymentMethod.Calculate();
Assert.Equal(Money.Coins(8.21m - 1.0m + 0.01m), accounting.Due);
Assert.Equal(Money.Coins(1.0m), accounting.CryptoPaid);
Assert.Equal(Money.Coins(3.0m), accounting.Paid);
Assert.Equal(Money.Coins(10.01m + 0.1m * 2 + 0.01m), accounting.TotalDue);
Assert.Equal(2, accounting.TxRequired);
var remaining = Money.Coins(4.2m - 0.5m + 0.01m / 2);
entity.Payments.Add(new PaymentEntity() { CryptoCode = "BTC", Output = new TxOut(remaining, new Key()), Accounted = true });
paymentMethod = entity.GetPaymentMethod(new PaymentMethodId("BTC", PaymentTypes.BTCLike), null);
accounting = paymentMethod.Calculate();
Assert.Equal(Money.Zero, accounting.Due);
Assert.Equal(Money.Coins(1.0m) + remaining, accounting.CryptoPaid);
Assert.Equal(Money.Coins(1.5m) + remaining, accounting.Paid);
Assert.Equal(Money.Coins(5.2m + 0.01m / 2), accounting.TotalDue);
Assert.Equal(accounting.Paid, accounting.TotalDue);
Assert.Equal(2, accounting.TxRequired);
paymentMethod = entity.GetPaymentMethod(new PaymentMethodId("LTC", PaymentTypes.BTCLike), null);
accounting = paymentMethod.Calculate();
Assert.Equal(Money.Zero, accounting.Due);
Assert.Equal(Money.Coins(1.0m), accounting.CryptoPaid);
Assert.Equal(Money.Coins(3.0m) + remaining * 2, accounting.Paid);
// Paying 2 BTC fee, LTC fee removed because fully paid
Assert.Equal(Money.Coins(10.01m + 0.1m * 2 + 0.1m * 2 /* + 0.01m no need to pay this fee anymore */), accounting.TotalDue);
Assert.Equal(1, accounting.TxRequired);
Assert.Equal(accounting.Paid, accounting.TotalDue);
#pragma warning restore CS0618
}
[Fact]
public void CanAcceptInvoiceWithTolerance()
{
var entity = new InvoiceEntity();
#pragma warning disable CS0618
entity.Payments = new List<PaymentEntity>();
entity.SetPaymentMethod(new PaymentMethod() { CryptoCode = "BTC", Rate = 5000, TxFee = Money.Coins(0.1m) });
entity.ProductInformation = new ProductInformation() { Price = 5000 };
entity.PaymentTolerance = 0;
var paymentMethod = entity.GetPaymentMethods(null).TryGet("BTC", PaymentTypes.BTCLike);
var accounting = paymentMethod.Calculate();
Assert.Equal(Money.Coins(1.1m), accounting.Due);
Assert.Equal(Money.Coins(1.1m), accounting.TotalDue);
Assert.Equal(Money.Coins(1.1m), accounting.MinimumTotalDue);
entity.PaymentTolerance = 10;
accounting = paymentMethod.Calculate();
Assert.Equal(Money.Coins(0.99m), accounting.MinimumTotalDue);
entity.PaymentTolerance = 100;
accounting = paymentMethod.Calculate();
Assert.Equal(Money.Satoshis(1), accounting.MinimumTotalDue);
}
[Fact]
public void CanAcceptInvoiceWithTolerance2()
{
using (var tester = ServerTester.Create())
{
tester.Start();
var user = tester.NewAccount();
user.GrantAccess();
user.RegisterDerivationScheme("BTC");
// Set tolerance to 50%
var stores = user.GetController<StoresController>();
var vm = Assert.IsType<StoreViewModel>(Assert.IsType<ViewResult>(stores.UpdateStore()).Model);
Assert.Equal(0.0, vm.PaymentTolerance);
vm.PaymentTolerance = 50.0;
Assert.IsType<RedirectToActionResult>(stores.UpdateStore(vm).Result);
var invoice = user.BitPay.CreateInvoice(new Invoice()
{
Buyer = new Buyer() { email = "test@fwf.com" },
Price = 5000.0m,
Currency = "USD",
PosData = "posData",
OrderId = "orderId",
ItemDesc = "Some description",
FullNotifications = true
}, Facade.Merchant);
// Pays 75%
var invoiceAddress = BitcoinAddress.Create(invoice.CryptoInfo[0].Address, tester.ExplorerNode.Network);
tester.ExplorerNode.SendToAddress(invoiceAddress, Money.Satoshis((decimal)invoice.BtcDue.Satoshi * 0.75m));
Eventually(() =>
{
var localInvoice = user.BitPay.GetInvoice(invoice.Id, Facade.Merchant);
Assert.Equal("paid", localInvoice.Status);
});
}
}
[Fact]
public void RoundupCurrenciesCorrectly()
{
foreach(var test in new[]
{
(0.0005m, "$0.0005 (USD)"),
(0.001m, "$0.001 (USD)"),
(0.01m, "$0.01 (USD)"),
(0.1m, "$0.10 (USD)"),
})
{
var actual = InvoiceController.FormatCurrency(test.Item1, "USD", new CurrencyNameTable());
Assert.Equal(test.Item2, actual);
}
}
[Fact]
public void CanPayUsingBIP70()
{
using (var tester = ServerTester.Create())
{
tester.Start();
var user = tester.NewAccount();
user.GrantAccess();
user.RegisterDerivationScheme("BTC");
var invoice = user.BitPay.CreateInvoice(new Invoice()
{
Buyer = new Buyer() { email = "test@fwf.com" },
Price = 5000.0m,
Currency = "USD",
PosData = "posData",
OrderId = "orderId",
//RedirectURL = redirect + "redirect",
//NotificationURL = CallbackUri + "/notification",
ItemDesc = "Some description",
FullNotifications = true
}, Facade.Merchant);
Assert.False(invoice.Refundable);
var url = new BitcoinUrlBuilder(invoice.PaymentUrls.BIP72);
var request = url.GetPaymentRequest();
var payment = request.CreatePayment();
Transaction tx = new Transaction();
tx.Outputs.AddRange(request.Details.Outputs.Select(o => new TxOut(o.Amount, o.Script)));
var cashCow = tester.ExplorerNode;
tx = cashCow.FundRawTransaction(tx).Transaction;
tx = cashCow.SignRawTransaction(tx);
payment.Transactions.Add(tx);
payment.RefundTo.Add(new PaymentOutput(Money.Coins(1.0m), new Key().ScriptPubKey));
var ack = payment.SubmitPayment();
Assert.NotNull(ack);
Eventually(() =>
{
var localInvoice = user.BitPay.GetInvoice(invoice.Id, Facade.Merchant);
Assert.Equal("paid", localInvoice.Status);
Assert.True(localInvoice.Refundable);
});
}
}
[Fact]
public void CanUseLightMoney()
{
var light = LightMoney.MilliSatoshis(1);
Assert.Equal("0.00000000001", light.ToString());
light = LightMoney.MilliSatoshis(200000);
Assert.Equal(200m, light.ToDecimal(LightMoneyUnit.Satoshi));
Assert.Equal(0.00000001m * 200m, light.ToDecimal(LightMoneyUnit.BTC));
}
[Fact]
public void CanSetLightningServer()
{
using (var tester = ServerTester.Create())
{
tester.Start();
var user = tester.NewAccount();
user.GrantAccess();
var storeController = user.GetController<StoresController>();
Assert.IsType<ViewResult>(storeController.UpdateStore());
Assert.IsType<ViewResult>(storeController.AddLightningNode(user.StoreId, "BTC"));
var testResult = storeController.AddLightningNode(user.StoreId, new LightningNodeViewModel()
{
Url = tester.MerchantCharge.Client.Uri.AbsoluteUri
}, "test", "BTC").GetAwaiter().GetResult();
Assert.DoesNotContain("Error", ((LightningNodeViewModel)Assert.IsType<ViewResult>(testResult).Model).StatusMessage, StringComparison.OrdinalIgnoreCase);
Assert.True(storeController.ModelState.IsValid);
Assert.IsType<RedirectToActionResult>(storeController.AddLightningNode(user.StoreId, new LightningNodeViewModel()
{
Url = tester.MerchantCharge.Client.Uri.AbsoluteUri
}, "save", "BTC").GetAwaiter().GetResult());
var storeVm = Assert.IsType<Models.StoreViewModels.StoreViewModel>(Assert.IsType<ViewResult>(storeController.UpdateStore()).Model);
Assert.Single(storeVm.LightningNodes.Where(l => !string.IsNullOrEmpty(l.Address)));
}
}
[Fact]
public void CanParseLightningURL()
{
LightningConnectionString conn = null;
Assert.True(LightningConnectionString.TryParse("/test/a", out conn));
Assert.Equal("unix://test/a", conn.ToString());
Assert.Equal("unix://test/a", conn.ToUri(true).AbsoluteUri);
Assert.Equal("unix://test/a", conn.ToUri(false).AbsoluteUri);
Assert.Equal(LightningConnectionType.CLightning, conn.ConnectionType);
Assert.True(LightningConnectionString.TryParse("unix://test/a", out conn));
Assert.Equal("unix://test/a", conn.ToString());
Assert.Equal("unix://test/a", conn.ToUri(true).AbsoluteUri);
Assert.Equal("unix://test/a", conn.ToUri(false).AbsoluteUri);
Assert.Equal(LightningConnectionType.CLightning, conn.ConnectionType);
Assert.True(LightningConnectionString.TryParse("unix://test/a", out conn));
Assert.Equal("unix://test/a", conn.ToString());
Assert.Equal("unix://test/a", conn.ToUri(true).AbsoluteUri);
Assert.Equal("unix://test/a", conn.ToUri(false).AbsoluteUri);
Assert.Equal(LightningConnectionType.CLightning, conn.ConnectionType);
Assert.True(LightningConnectionString.TryParse("tcp://test/a", out conn));
Assert.Equal("tcp://test/a", conn.ToString());
Assert.Equal("tcp://test/a", conn.ToUri(true).AbsoluteUri);
Assert.Equal("tcp://test/a", conn.ToUri(false).AbsoluteUri);
Assert.Equal(LightningConnectionType.CLightning, conn.ConnectionType);
Assert.True(LightningConnectionString.TryParse("http://aaa:bbb@test/a", out conn));
Assert.Equal("http://aaa:bbb@test/a", conn.ToString());
Assert.Equal("http://aaa:bbb@test/a", conn.ToUri(true).AbsoluteUri);
Assert.Equal("http://test/a", conn.ToUri(false).AbsoluteUri);
Assert.Equal(LightningConnectionType.Charge, conn.ConnectionType);
Assert.Equal("aaa", conn.Username);
Assert.Equal("bbb", conn.Password);
Assert.False(LightningConnectionString.TryParse("lol://aaa:bbb@test/a", out conn));
Assert.False(LightningConnectionString.TryParse("https://test/a", out conn));
Assert.False(LightningConnectionString.TryParse("unix://dwewoi:dwdwqd@test/a", out conn));
}
[Fact]
public void CanSendLightningPayment2()
{
using (var tester = ServerTester.Create())
{
tester.Start();
tester.PrepareLightning();
var user = tester.NewAccount();
user.GrantAccess();
user.RegisterLightningNode("BTC", LightningConnectionType.CLightning);
user.RegisterDerivationScheme("BTC");
var invoice = user.BitPay.CreateInvoice(new Invoice()
{
Price = 0.01m,
Currency = "USD",
PosData = "posData",
OrderId = "orderId",
ItemDesc = "Some description"
});
tester.SendLightningPayment(invoice);
Eventually(() =>
{
var localInvoice = user.BitPay.GetInvoice(invoice.Id);
Assert.Equal("complete", localInvoice.Status);
Assert.Equal("False", localInvoice.ExceptionStatus.ToString());
});
}
}
[Fact]
public void CanSendLightningPayment()
{
using (var tester = ServerTester.Create())
{
tester.Start();
tester.PrepareLightning();
var user = tester.NewAccount();
user.GrantAccess();
user.RegisterLightningNode("BTC", LightningConnectionType.Charge);
user.RegisterDerivationScheme("BTC");
var invoice = user.BitPay.CreateInvoice(new Invoice()
{
Price = 0.01m,
Currency = "USD",
PosData = "posData",
OrderId = "orderId",
ItemDesc = "Some description"
});
tester.SendLightningPayment(invoice);
Eventually(() =>
{
var localInvoice = user.BitPay.GetInvoice(invoice.Id);
Assert.Equal("complete", localInvoice.Status);
Assert.Equal("False", localInvoice.ExceptionStatus.ToString());
});
Task.WaitAll(Enumerable.Range(0, 5)
.Select(_ => CanSendLightningPaymentCore(tester, user))
.ToArray());
}
}
async Task CanSendLightningPaymentCore(ServerTester tester, TestAccount user)
{
await Task.Delay(TimeSpan.FromSeconds(RandomUtils.GetUInt32() % 5));
var invoice = await user.BitPay.CreateInvoiceAsync(new Invoice()
{
Price = 0.01m,
Currency = "USD",
PosData = "posData",
OrderId = "orderId",
ItemDesc = "Some description"
});
await tester.SendLightningPaymentAsync(invoice);
await EventuallyAsync(async () =>
{
var localInvoice = await user.BitPay.GetInvoiceAsync(invoice.Id);
Assert.Equal("complete", localInvoice.Status);
Assert.Equal("False", localInvoice.ExceptionStatus.ToString());
});
}
[Fact]
public void CanUseServerInitiatedPairingCode()
{
using (var tester = ServerTester.Create())
{
tester.Start();
var acc = tester.NewAccount();
acc.Register();
acc.CreateStore();
var controller = acc.GetController<StoresController>();
var token = (RedirectToActionResult)controller.CreateToken(new Models.StoreViewModels.CreateTokenViewModel()
{
Facade = Facade.Merchant.ToString(),
Label = "bla",
PublicKey = null
}).GetAwaiter().GetResult();
var pairingCode = (string)token.RouteValues["pairingCode"];
acc.BitPay.AuthorizeClient(new PairingCode(pairingCode)).GetAwaiter().GetResult();
Assert.True(acc.BitPay.TestAccess(Facade.Merchant));
}
}
[Fact]
public void CanSendIPN()
{
using (var callbackServer = new CustomServer())
{
using (var tester = ServerTester.Create())
{
tester.Start();
var acc = tester.NewAccount();
acc.GrantAccess();
acc.RegisterDerivationScheme("BTC");
var invoice = acc.BitPay.CreateInvoice(new Invoice()
{
Price = 5.0m,
Currency = "USD",
PosData = "posData",
OrderId = "orderId",
NotificationURL = callbackServer.GetUri().AbsoluteUri,
ItemDesc = "Some description",
FullNotifications = true,
ExtendedNotifications = true
});
BitcoinUrlBuilder url = new BitcoinUrlBuilder(invoice.PaymentUrls.BIP21);
tester.ExplorerNode.SendToAddress(url.Address, url.Amount);
Thread.Sleep(5000);
callbackServer.ProcessNextRequest((ctx) =>
{
var ipn = new StreamReader(ctx.Request.Body).ReadToEnd();
JsonConvert.DeserializeObject<InvoicePaymentNotification>(ipn); //can deserialize
});
var invoice2 = acc.BitPay.GetInvoice(invoice.Id);
Assert.NotNull(invoice2);
}
}
}
[Fact]
public void CantPairTwiceWithSamePubkey()
{
using (var tester = ServerTester.Create())
{
tester.Start();
var acc = tester.NewAccount();
acc.Register();
acc.CreateStore();
var store = acc.GetController<StoresController>();
var pairingCode = acc.BitPay.RequestClientAuthorization("test", Facade.Merchant);
Assert.IsType<RedirectToActionResult>(store.Pair(pairingCode.ToString(), acc.StoreId).GetAwaiter().GetResult());
pairingCode = acc.BitPay.RequestClientAuthorization("test1", Facade.Merchant);
acc.CreateStore();
var store2 = acc.GetController<StoresController>();
store2.Pair(pairingCode.ToString(), store2.StoreData.Id).GetAwaiter().GetResult();
Assert.Contains(nameof(PairingResult.ReusedKey), store2.StatusMessage, StringComparison.CurrentCultureIgnoreCase);
}
}
[Fact]
public void CanListInvoices()
{
using (var tester = ServerTester.Create())
{
tester.Start();
var acc = tester.NewAccount();
acc.GrantAccess();
acc.RegisterDerivationScheme("BTC");
// First we try payment with a merchant having only BTC
var invoice = acc.BitPay.CreateInvoice(new Invoice()
{
Price = 500,
Currency = "USD",
PosData = "posData",
OrderId = "orderId",
ItemDesc = "Some description",
FullNotifications = true
}, Facade.Merchant);
var cashCow = tester.ExplorerNode;
var invoiceAddress = BitcoinAddress.Create(invoice.CryptoInfo[0].Address, cashCow.Network);
var firstPayment = invoice.CryptoInfo[0].TotalDue - Money.Satoshis(10);
cashCow.SendToAddress(invoiceAddress, firstPayment);
Eventually(() =>
{
invoice = acc.BitPay.GetInvoice(invoice.Id);
Assert.Equal(firstPayment, invoice.CryptoInfo[0].Paid);
});
AssertSearchInvoice(acc, true, invoice.Id, $"storeid:{acc.StoreId}");
AssertSearchInvoice(acc, false, invoice.Id, $"storeid:blah");
AssertSearchInvoice(acc, true, invoice.Id, $"{invoice.Id}");
AssertSearchInvoice(acc, true, invoice.Id, $"exceptionstatus:paidPartial");
AssertSearchInvoice(acc, false, invoice.Id, $"exceptionstatus:paidOver");
AssertSearchInvoice(acc, true, invoice.Id, $"unusual:true");
AssertSearchInvoice(acc, false, invoice.Id, $"unusual:false");
}
}
private void AssertSearchInvoice(TestAccount acc, bool expected, string invoiceId, string filter)
{
var result = (Models.InvoicingModels.InvoicesModel)((ViewResult)acc.GetController<InvoiceController>().ListInvoices(filter).Result).Model;
Assert.Equal(expected, result.Invoices.Any(i => i.InvoiceId == invoiceId));
}
[Fact]
public void CanRBFPayment()
{
using (var tester = ServerTester.Create())
{
tester.Start();
var user = tester.NewAccount();
user.GrantAccess();
user.RegisterDerivationScheme("BTC");
var invoice = user.BitPay.CreateInvoice(new Invoice()
{
Price = 5000.0m,
Currency = "USD"
}, Facade.Merchant);
var payment1 = invoice.BtcDue + Money.Coins(0.0001m);
var payment2 = invoice.BtcDue;
var tx1 = new uint256(tester.ExplorerNode.SendCommand("sendtoaddress", new object[]
{
invoice.BitcoinAddress,
payment1.ToString(),
null, //comment
null, //comment_to
false, //subtractfeefromamount
true, //replaceable
}).ResultString);
var invoiceAddress = BitcoinAddress.Create(invoice.BitcoinAddress, user.SupportedNetwork.NBitcoinNetwork);
Eventually(() =>
{
invoice = user.BitPay.GetInvoice(invoice.Id);
Assert.Equal(payment1, invoice.BtcPaid);
Assert.Equal("paid", invoice.Status);
Assert.Equal("paidOver", invoice.ExceptionStatus.ToString());
invoiceAddress = BitcoinAddress.Create(invoice.BitcoinAddress, user.SupportedNetwork.NBitcoinNetwork);
});
var tx = tester.ExplorerNode.GetRawTransaction(new uint256(tx1));
foreach (var input in tx.Inputs)
{
input.ScriptSig = Script.Empty; //Strip signatures
}
var output = tx.Outputs.First(o => o.Value == payment1);
output.Value = payment2;
output.ScriptPubKey = invoiceAddress.ScriptPubKey;
var replaced = tester.ExplorerNode.SignRawTransaction(tx);
tester.ExplorerNode.SendRawTransaction(replaced);
var test = tester.ExplorerClient.GetUTXOs(user.DerivationScheme, null);
Eventually(() =>
{
invoice = user.BitPay.GetInvoice(invoice.Id);
Assert.Equal(payment2, invoice.BtcPaid);
Assert.Equal("False", invoice.ExceptionStatus.ToString());
});
}
}
[Fact]
public void CanParseFilter()
{
var filter = "storeid:abc status:abed blabhbalh ";
var search = new SearchString(filter);
Assert.Equal("storeid:abc status:abed blabhbalh", search.ToString());
Assert.Equal("blabhbalh", search.TextSearch);
Assert.Single(search.Filters["storeid"]);
Assert.Single(search.Filters["status"]);
Assert.Equal("abc", search.Filters["storeid"].First());
Assert.Equal("abed", search.Filters["status"].First());
filter = "status:abed status:abed2";
search = new SearchString(filter);
Assert.Equal("status:abed status:abed2", search.ToString());
Assert.Throws<KeyNotFoundException>(() => search.Filters["test"]);
Assert.Equal(2, search.Filters["status"].Count);
Assert.Equal("abed", search.Filters["status"].First());
Assert.Equal("abed2", search.Filters["status"].Skip(1).First());
}
[Fact]
public void TestAccessBitpayAPI()
{
using (var tester = ServerTester.Create())
{
tester.Start();
var user = tester.NewAccount();
Assert.False(user.BitPay.TestAccess(Facade.Merchant));
user.GrantAccess();
user.RegisterDerivationScheme("BTC");
Assert.True(user.BitPay.TestAccess(Facade.Merchant));
// Can generate API Key
var repo = tester.PayTester.GetService<TokenRepository>();
Assert.Empty(repo.GetLegacyAPIKeys(user.StoreId).GetAwaiter().GetResult());
Assert.IsType<RedirectToActionResult>(user.GetController<StoresController>().GenerateAPIKey().GetAwaiter().GetResult());
var apiKey = Assert.Single(repo.GetLegacyAPIKeys(user.StoreId).GetAwaiter().GetResult());
///////
// Generating a new one remove the previous
Assert.IsType<RedirectToActionResult>(user.GetController<StoresController>().GenerateAPIKey().GetAwaiter().GetResult());
var apiKey2 = Assert.Single(repo.GetLegacyAPIKeys(user.StoreId).GetAwaiter().GetResult());
Assert.NotEqual(apiKey, apiKey2);
////////
apiKey = apiKey2;
// Can create an invoice with this new API Key
HttpClient client = new HttpClient();
HttpRequestMessage message = new HttpRequestMessage(HttpMethod.Post, tester.PayTester.ServerUri.AbsoluteUri + "invoices");
message.Headers.Authorization = new System.Net.Http.Headers.AuthenticationHeaderValue("Basic", Encoders.Base64.EncodeData(Encoders.ASCII.DecodeData(apiKey)));
var invoice = new Invoice()
{
Price = 5000.0m,
Currency = "USD"
};
message.Content = new StringContent(JsonConvert.SerializeObject(invoice), Encoding.UTF8, "application/json");
var result = client.SendAsync(message).GetAwaiter().GetResult();
result.EnsureSuccessStatusCode();
/////////////////////
}
}
[Fact]
public void CanUseExchangeSpecificRate()
{
using (var tester = ServerTester.Create())
{
tester.PayTester.MockRates = false;
tester.Start();
var user = tester.NewAccount();
user.GrantAccess();
user.RegisterDerivationScheme("BTC");
List<decimal> rates = new List<decimal>();
rates.Add(CreateInvoice(tester, user, "coinaverage"));
var bitflyer = CreateInvoice(tester, user, "bitflyer");
var bitflyer2 = CreateInvoice(tester, user, "bitflyer");
Assert.Equal(bitflyer, bitflyer2); // Should be equal because cache
rates.Add(bitflyer);
foreach (var rate in rates)
{
Assert.Single(rates.Where(r => r == rate));
}
}
}
private static decimal CreateInvoice(ServerTester tester, TestAccount user, string exchange)
{
var storeController = user.GetController<StoresController>();
var vm = (RatesViewModel)((ViewResult)storeController.Rates()).Model;
vm.PreferredExchange = exchange;
storeController.Rates(vm).Wait();
var invoice2 = user.BitPay.CreateInvoice(new Invoice()
{
Price = 5000.0m,
Currency = "USD",
PosData = "posData",
OrderId = "orderId",
ItemDesc = "Some description",
FullNotifications = true
}, Facade.Merchant);
return invoice2.CryptoInfo[0].Rate;
}
[Fact]
public void CanTweakRate()
{
using (var tester = ServerTester.Create())
{
tester.PayTester.MockRates = false;
tester.Start();
var user = tester.NewAccount();
user.GrantAccess();
user.RegisterDerivationScheme("BTC");
// First we try payment with a merchant having only BTC
var invoice1 = user.BitPay.CreateInvoice(new Invoice()
{
Price = 5000.0m,
Currency = "USD",
PosData = "posData",
OrderId = "orderId",
ItemDesc = "Some description",
FullNotifications = true
}, Facade.Merchant);
var storeController = user.GetController<StoresController>();
var vm = (RatesViewModel)((ViewResult)storeController.Rates()).Model;
Assert.Equal(1.0, vm.RateMultiplier);
vm.RateMultiplier = 0.5;
storeController.Rates(vm).Wait();
var invoice2 = user.BitPay.CreateInvoice(new Invoice()
{
Price = 5000.0m,
Currency = "USD",
PosData = "posData",
OrderId = "orderId",
ItemDesc = "Some description",
FullNotifications = true
}, Facade.Merchant);
Assert.True(invoice2.BtcPrice.Almost(invoice1.BtcPrice * 2, 0.00001m));
}
}
[Fact]
public void CanHaveLTCOnlyStore()
{
using (var tester = ServerTester.Create())
{
tester.Start();
var user = tester.NewAccount();
user.GrantAccess();
user.RegisterDerivationScheme("LTC");
// First we try payment with a merchant having only BTC
var invoice = user.BitPay.CreateInvoice(new Invoice()
{
Price = 500,
Currency = "USD",
PosData = "posData",
OrderId = "orderId",
ItemDesc = "Some description",
FullNotifications = true
}, Facade.Merchant);
Assert.Single(invoice.CryptoInfo);
Assert.Equal("LTC", invoice.CryptoInfo[0].CryptoCode);
Assert.True(invoice.PaymentCodes.ContainsKey("LTC"));
Assert.True(invoice.SupportedTransactionCurrencies.ContainsKey("LTC"));
Assert.True(invoice.SupportedTransactionCurrencies["LTC"].Enabled);
Assert.True(invoice.PaymentSubtotals.ContainsKey("LTC"));
Assert.True(invoice.PaymentTotals.ContainsKey("LTC"));
var cashCow = tester.LTCExplorerNode;
var invoiceAddress = BitcoinAddress.Create(invoice.CryptoInfo[0].Address, cashCow.Network);
var firstPayment = Money.Coins(0.1m);
cashCow.SendToAddress(invoiceAddress, firstPayment);
Eventually(() =>
{
invoice = user.BitPay.GetInvoice(invoice.Id);
Assert.Equal(firstPayment, invoice.CryptoInfo[0].Paid);
});
Assert.Single(invoice.CryptoInfo); // Only BTC should be presented
var controller = tester.PayTester.GetController<InvoiceController>(null);
var checkout = (Models.InvoicingModels.PaymentModel)((JsonResult)controller.GetStatus(invoice.Id, null).GetAwaiter().GetResult()).Value;
Assert.Single(checkout.AvailableCryptos);
Assert.Equal("LTC", checkout.CryptoCode);
//////////////////////
// Despite it is called BitcoinAddress it should be LTC because BTC is not available
Assert.Null(invoice.BitcoinAddress);
Assert.NotEqual(1.0m, invoice.Rate);
Assert.NotEqual(invoice.BtcDue, invoice.CryptoInfo[0].Due); // Should be BTC rate
cashCow.SendToAddress(invoiceAddress, invoice.CryptoInfo[0].Due);
Eventually(() =>
{
invoice = user.BitPay.GetInvoice(invoice.Id);
Assert.Equal("paid", invoice.Status);
checkout = (Models.InvoicingModels.PaymentModel)((JsonResult)controller.GetStatus(invoice.Id, null).GetAwaiter().GetResult()).Value;
Assert.Equal("paid", checkout.Status);
});
}
}
[Fact]
public void CanModifyRates()
{
using (var tester = ServerTester.Create())
{
tester.Start();
var user = tester.NewAccount();
user.GrantAccess();
user.RegisterDerivationScheme("BTC");
var store = user.GetController<StoresController>();
var rateVm = Assert.IsType<RatesViewModel>(Assert.IsType<ViewResult>(store.Rates()).Model);
Assert.False(rateVm.ShowScripting);
Assert.Equal("coinaverage", rateVm.PreferredExchange);
Assert.Equal(1.0, rateVm.RateMultiplier);
Assert.Null(rateVm.TestRateRules);
rateVm.PreferredExchange = "bitflyer";
Assert.IsType<RedirectToActionResult>(store.Rates(rateVm, "Save").Result);
rateVm = Assert.IsType<RatesViewModel>(Assert.IsType<ViewResult>(store.Rates()).Model);
Assert.Equal("bitflyer", rateVm.PreferredExchange);
rateVm.ScriptTest = "BTC_JPY,BTC_CAD";
rateVm.RateMultiplier = 1.1;
store = user.GetController<StoresController>();
rateVm = Assert.IsType<RatesViewModel>(Assert.IsType<ViewResult>(store.Rates(rateVm, "Test").Result).Model);
Assert.NotNull(rateVm.TestRateRules);
Assert.Equal(2, rateVm.TestRateRules.Count);
Assert.False(rateVm.TestRateRules[0].Error);
Assert.StartsWith("(bitflyer(BTC_JPY)) * 1.10 =", rateVm.TestRateRules[0].Rule, StringComparison.OrdinalIgnoreCase);
Assert.True(rateVm.TestRateRules[1].Error);
Assert.IsType<RedirectToActionResult>(store.Rates(rateVm, "Save").Result);
Assert.IsType<RedirectToActionResult>(store.ShowRateRulesPost(true).Result);
Assert.IsType<RedirectToActionResult>(store.Rates(rateVm, "Save").Result);
store = user.GetController<StoresController>();
rateVm = Assert.IsType<RatesViewModel>(Assert.IsType<ViewResult>(store.Rates()).Model);
Assert.Equal(rateVm.DefaultScript, rateVm.Script);
Assert.True(rateVm.ShowScripting);
rateVm.ScriptTest = "BTC_JPY";
rateVm = Assert.IsType<RatesViewModel>(Assert.IsType<ViewResult>(store.Rates(rateVm, "Test").Result).Model);
Assert.True(rateVm.ShowScripting);
Assert.Contains("(bitflyer(BTC_JPY)) * 1.10 = ", rateVm.TestRateRules[0].Rule, StringComparison.OrdinalIgnoreCase);
rateVm.ScriptTest = "BTC_USD,BTC_CAD,DOGE_USD,DOGE_CAD";
rateVm.Script = "DOGE_X = bittrex(DOGE_BTC) * BTC_X;\n" +
"X_CAD = quadrigacx(X_CAD);\n" +
"X_X = gdax(X_X);";
rateVm.RateMultiplier = 0.5;
rateVm = Assert.IsType<RatesViewModel>(Assert.IsType<ViewResult>(store.Rates(rateVm, "Test").Result).Model);
Assert.True(rateVm.TestRateRules.All(t => !t.Error));
Assert.IsType<RedirectToActionResult>(store.Rates(rateVm, "Save").Result);
store = user.GetController<StoresController>();
rateVm = Assert.IsType<RatesViewModel>(Assert.IsType<ViewResult>(store.Rates()).Model);
Assert.Equal(0.5, rateVm.RateMultiplier);
Assert.True(rateVm.ShowScripting);
Assert.Contains("DOGE_X", rateVm.Script, StringComparison.OrdinalIgnoreCase);
}
}
[Fact]
public void CanPayWithTwoCurrencies()
{
using (var tester = ServerTester.Create())
{
tester.Start();
var user = tester.NewAccount();
user.GrantAccess();
user.RegisterDerivationScheme("BTC");
// First we try payment with a merchant having only BTC
var invoice = user.BitPay.CreateInvoice(new Invoice()
{
Price = 5000.0m,
Currency = "USD",
PosData = "posData",
OrderId = "orderId",
ItemDesc = "Some description",
FullNotifications = true
}, Facade.Merchant);
var cashCow = tester.ExplorerNode;
cashCow.Generate(2); // get some money in case
var invoiceAddress = BitcoinAddress.Create(invoice.BitcoinAddress, cashCow.Network);
var firstPayment = Money.Coins(0.04m);
cashCow.SendToAddress(invoiceAddress, firstPayment);
Eventually(() =>
{
invoice = user.BitPay.GetInvoice(invoice.Id);
Assert.True(invoice.BtcPaid == firstPayment);
});
Assert.Single(invoice.CryptoInfo); // Only BTC should be presented
var controller = tester.PayTester.GetController<InvoiceController>(null);
var checkout = (Models.InvoicingModels.PaymentModel)((JsonResult)controller.GetStatus(invoice.Id, null).GetAwaiter().GetResult()).Value;
Assert.Single(checkout.AvailableCryptos);
Assert.Equal("BTC", checkout.CryptoCode);
Assert.Single(invoice.PaymentCodes);
Assert.Single(invoice.SupportedTransactionCurrencies);
Assert.Single(invoice.SupportedTransactionCurrencies);
Assert.Single(invoice.PaymentSubtotals);
Assert.Single(invoice.PaymentTotals);
Assert.True(invoice.PaymentCodes.ContainsKey("BTC"));
Assert.True(invoice.SupportedTransactionCurrencies.ContainsKey("BTC"));
Assert.True(invoice.SupportedTransactionCurrencies["BTC"].Enabled);
Assert.True(invoice.PaymentSubtotals.ContainsKey("BTC"));
Assert.True(invoice.PaymentTotals.ContainsKey("BTC"));
//////////////////////
// Retry now with LTC enabled
user.RegisterDerivationScheme("LTC");
invoice = user.BitPay.CreateInvoice(new Invoice()
{
Price = 5000.0m,
Currency = "USD",
PosData = "posData",
OrderId = "orderId",
ItemDesc = "Some description",
FullNotifications = true
}, Facade.Merchant);
cashCow = tester.ExplorerNode;
invoiceAddress = BitcoinAddress.Create(invoice.BitcoinAddress, cashCow.Network);
firstPayment = Money.Coins(0.04m);
cashCow.SendToAddress(invoiceAddress, firstPayment);
Logs.Tester.LogInformation("First payment sent to " + invoiceAddress);
Eventually(() =>
{
invoice = user.BitPay.GetInvoice(invoice.Id);
Assert.True(invoice.BtcPaid == firstPayment);
});
cashCow = tester.LTCExplorerNode;
var ltcCryptoInfo = invoice.CryptoInfo.FirstOrDefault(c => c.CryptoCode == "LTC");
Assert.NotNull(ltcCryptoInfo);
invoiceAddress = BitcoinAddress.Create(ltcCryptoInfo.Address, cashCow.Network);
var secondPayment = Money.Coins(decimal.Parse(ltcCryptoInfo.Due, CultureInfo.InvariantCulture));
cashCow.Generate(2); // LTC is not worth a lot, so just to make sure we have money...
cashCow.SendToAddress(invoiceAddress, secondPayment);
Logs.Tester.LogInformation("Second payment sent to " + invoiceAddress);
Eventually(() =>
{
invoice = user.BitPay.GetInvoice(invoice.Id);
Assert.Equal(Money.Zero, invoice.BtcDue);
var ltcPaid = invoice.CryptoInfo.First(c => c.CryptoCode == "LTC");
Assert.Equal(Money.Zero, ltcPaid.Due);
Assert.Equal(secondPayment, ltcPaid.CryptoPaid);
Assert.Equal("paid", invoice.Status);
Assert.False((bool)((JValue)invoice.ExceptionStatus).Value);
});
controller = tester.PayTester.GetController<InvoiceController>(null);
checkout = (Models.InvoicingModels.PaymentModel)((JsonResult)controller.GetStatus(invoice.Id, "LTC").GetAwaiter().GetResult()).Value;
Assert.Equal(2, checkout.AvailableCryptos.Count);
Assert.Equal("LTC", checkout.CryptoCode);
Assert.Equal(2, invoice.PaymentCodes.Count());
Assert.Equal(2, invoice.SupportedTransactionCurrencies.Count());
Assert.Equal(2, invoice.SupportedTransactionCurrencies.Count());
Assert.Equal(2, invoice.PaymentSubtotals.Count());
Assert.Equal(2, invoice.PaymentTotals.Count());
Assert.True(invoice.PaymentCodes.ContainsKey("LTC"));
Assert.True(invoice.SupportedTransactionCurrencies.ContainsKey("LTC"));
Assert.True(invoice.SupportedTransactionCurrencies["LTC"].Enabled);
Assert.True(invoice.PaymentSubtotals.ContainsKey("LTC"));
Assert.True(invoice.PaymentTotals.ContainsKey("LTC"));
}
}
[Fact]
public void CanParseCurrencyValue()
{
Assert.True(CurrencyValue.TryParse("1.50USD", out var result));
Assert.Equal("1.50 USD", result.ToString());
Assert.True(CurrencyValue.TryParse("1.50 USD", out result));
Assert.Equal("1.50 USD", result.ToString());
Assert.True(CurrencyValue.TryParse("1.50 usd", out result));
Assert.Equal("1.50 USD", result.ToString());
Assert.True(CurrencyValue.TryParse("1 usd", out result));
Assert.Equal("1 USD", result.ToString());
Assert.True(CurrencyValue.TryParse("1usd", out result));
Assert.Equal("1 USD", result.ToString());
Assert.True(CurrencyValue.TryParse("1.501 usd", out result));
Assert.Equal("1.50 USD", result.ToString());
Assert.False(CurrencyValue.TryParse("1.501 WTFF", out result));
Assert.False(CurrencyValue.TryParse("1,501 usd", out result));
Assert.False(CurrencyValue.TryParse("1.501", out result));
}
[Fact]
public void CanParseDerivationScheme()
{
var parser = new DerivationSchemeParser(Network.TestNet);
NBXplorer.DerivationStrategy.DerivationStrategyBase result;
// Passing electrum stuff
// Native
result = parser.Parse("zpub6nL6PUGurpU3DfPDSZaRS6WshpbNc9ctCFFzrCn54cssnheM31SZJZUcFHKtjJJNhAueMbh6ptFMfy1aeiMQJr3RJ4DDt1hAPx7sMTKV48t");
Assert.Equal("tpubD93CJNkmGjLXnsBqE2zGDqfEh1Q8iJ8wueordy3SeWt1RngbbuxXCsqASuVWFywmfoCwUE1rSfNJbaH4cBNcbp8WcyZgPiiRSTazLGL8U9w", result.ToString());
// P2SH
result = parser.Parse("ypub6QqdH2c5z79681jUgdxjGJzGW9zpL4ryPCuhtZE4GpvrJoZqM823XQN6iSQeVbbbp2uCRQ9UgpeMcwiyV6qjvxTWVcxDn2XEAnioMUwsrQ5");
Assert.Equal("tpubD6NzVbkrYhZ4YWjDJUACG9E8fJx2NqNY1iynTiPKEjJrzzRKAgha3nNnwGXr2BtvCJKJHW4nmG7rRqc2AGGy2AECgt16seMyV2FZivUmaJg-[p2sh]", result.ToString());
result = parser.Parse("xpub661MyMwAqRbcGeVGU5e5KBcau1HHEUGf9Wr7k4FyLa8yRPNQrrVa7Ndrgg8Afbe2UYXMSL6tJBFd2JewwWASsePPLjkcJFL1tTVEs3UQ23X");
Assert.Equal("tpubD6NzVbkrYhZ4YSg7vGdAX6wxE8NwDrmih9SR6cK7gUtsAg37w5LfFpJgviCxC6bGGT4G3uckqH5fiV9ZLN1gm5qgQLVuymzFUR5ed7U7ksu-[legacy]", result.ToString());
////////////////
var tpub = "tpubD6NzVbkrYhZ4Wc65tjhmcKdWFauAo7bGLRTxvggygkNyp6SMGutJp7iociwsinU33jyNBp1J9j2hJH5yQsayfiS3LEU2ZqXodAcnaygra8o";
result = parser.Parse(tpub);
Assert.Equal(tpub, result.ToString());
parser.HintScriptPubKey = BitcoinAddress.Create("tb1q4s33amqm8l7a07zdxcunqnn3gcsjcfz3xc573l", parser.Network).ScriptPubKey;
result = parser.Parse(tpub);
Assert.Equal(tpub, result.ToString());
parser.HintScriptPubKey = BitcoinAddress.Create("2N2humNio3YTApSfY6VztQ9hQwDnhDvaqFQ", parser.Network).ScriptPubKey;
result = parser.Parse(tpub);
Assert.Equal($"{tpub}-[p2sh]", result.ToString());
parser.HintScriptPubKey = BitcoinAddress.Create("mwD8bHS65cdgUf6rZUUSoVhi3wNQFu1Nfi", parser.Network).ScriptPubKey;
result = parser.Parse(tpub);
Assert.Equal($"{tpub}-[legacy]", result.ToString());
parser.HintScriptPubKey = BitcoinAddress.Create("2N2humNio3YTApSfY6VztQ9hQwDnhDvaqFQ", parser.Network).ScriptPubKey;
result = parser.Parse($"{tpub}-[legacy]");
Assert.Equal($"{tpub}-[p2sh]", result.ToString());
result = parser.Parse(tpub);
Assert.Equal($"{tpub}-[p2sh]", result.ToString());
}
[Fact]
public void CanSetPaymentMethodLimits()
{
using (var tester = ServerTester.Create())
{
tester.Start();
var user = tester.NewAccount();
user.GrantAccess();
user.RegisterDerivationScheme("BTC");
user.RegisterLightningNode("BTC", LightningConnectionType.Charge);
var vm = Assert.IsType<CheckoutExperienceViewModel>(Assert.IsType<ViewResult>(user.GetController<StoresController>().CheckoutExperience()).Model);
vm.LightningMaxValue = "2 USD";
vm.OnChainMinValue = "5 USD";
Assert.IsType<RedirectToActionResult>(user.GetController<StoresController>().CheckoutExperience(vm).Result);
var invoice = user.BitPay.CreateInvoice(new Invoice()
{
Price = 1.5m,
Currency = "USD",
PosData = "posData",
OrderId = "orderId",
ItemDesc = "Some description",
FullNotifications = true
}, Facade.Merchant);
Assert.Single(invoice.CryptoInfo);
Assert.Equal(PaymentTypes.LightningLike.ToString(), invoice.CryptoInfo[0].PaymentType);
invoice = user.BitPay.CreateInvoice(new Invoice()
{
Price = 5.5m,
Currency = "USD",
PosData = "posData",
OrderId = "orderId",
ItemDesc = "Some description",
FullNotifications = true
}, Facade.Merchant);
Assert.Single(invoice.CryptoInfo);
Assert.Equal(PaymentTypes.BTCLike.ToString(), invoice.CryptoInfo[0].PaymentType);
}
}
[Fact]
public void CanUsePoSApp()
{
using (var tester = ServerTester.Create())
{
tester.Start();
var user = tester.NewAccount();
user.GrantAccess();
user.RegisterDerivationScheme("BTC");
var apps = user.GetController<AppsController>();
var vm = Assert.IsType<CreateAppViewModel>(Assert.IsType<ViewResult>(apps.CreateApp().Result).Model);
vm.Name = "test";
vm.SelectedAppType = AppType.PointOfSale.ToString();
Assert.IsType<RedirectToActionResult>(apps.CreateApp(vm).Result);
var appId = Assert.IsType<ListAppsViewModel>(Assert.IsType<ViewResult>(apps.ListApps().Result).Model).Apps[0].Id;
var vmpos = Assert.IsType<UpdatePointOfSaleViewModel>(Assert.IsType<ViewResult>(apps.UpdatePointOfSale(appId).Result).Model);
vmpos.Title = "hello";
vmpos.Currency = "CAD";
vmpos.Template =
"apple:\n" +
" price: 5.0\n" +
" title: good apple\n" +
"orange:\n" +
" price: 10.0\n";
Assert.IsType<RedirectToActionResult>(apps.UpdatePointOfSale(appId, vmpos).Result);
vmpos = Assert.IsType<UpdatePointOfSaleViewModel>(Assert.IsType<ViewResult>(apps.UpdatePointOfSale(appId).Result).Model);
Assert.Equal("hello", vmpos.Title);
var vmview = Assert.IsType<ViewPointOfSaleViewModel>(Assert.IsType<ViewResult>(apps.ViewPointOfSale(appId).Result).Model);
Assert.Equal("hello", vmview.Title);
Assert.Equal(2, vmview.Items.Length);
Assert.Equal("good apple", vmview.Items[0].Title);
Assert.Equal("orange", vmview.Items[1].Title);
Assert.Equal(10.0m, vmview.Items[1].Price.Value);
Assert.Equal("$5.00", vmview.Items[0].Price.Formatted);
Assert.IsType<RedirectResult>(apps.ViewPointOfSale(appId, 0, "orange").Result);
var invoice = user.BitPay.GetInvoices().First();
Assert.Equal(10.00m, invoice.Price);
Assert.Equal("CAD", invoice.Currency);
Assert.Equal("orange", invoice.ItemDesc);
}
}
[Fact]
public void CanCreateAndDeleteApps()
{
using (var tester = ServerTester.Create())
{
tester.Start();
var user = tester.NewAccount();
user.GrantAccess();
var user2 = tester.NewAccount();
user2.GrantAccess();
var apps = user.GetController<AppsController>();
var apps2 = user2.GetController<AppsController>();
var vm = Assert.IsType<CreateAppViewModel>(Assert.IsType<ViewResult>(apps.CreateApp().Result).Model);
Assert.NotNull(vm.SelectedAppType);
Assert.Null(vm.Name);
vm.Name = "test";
var redirectToAction = Assert.IsType<RedirectToActionResult>(apps.CreateApp(vm).Result);
Assert.Equal(nameof(apps.ListApps), redirectToAction.ActionName);
var appList = Assert.IsType<ListAppsViewModel>(Assert.IsType<ViewResult>(apps.ListApps().Result).Model);
var appList2 = Assert.IsType<ListAppsViewModel>(Assert.IsType<ViewResult>(apps2.ListApps().Result).Model);
Assert.Single(appList.Apps);
Assert.Empty(appList2.Apps);
Assert.Equal("test", appList.Apps[0].AppName);
Assert.True(appList.Apps[0].IsOwner);
Assert.Equal(user.StoreId, appList.Apps[0].StoreId);
Assert.IsType<NotFoundResult>(apps2.DeleteApp(appList.Apps[0].Id).Result);
Assert.IsType<ViewResult>(apps.DeleteApp(appList.Apps[0].Id).Result);
redirectToAction = Assert.IsType<RedirectToActionResult>(apps.DeleteAppPost(appList.Apps[0].Id).Result);
Assert.Equal(nameof(apps.ListApps), redirectToAction.ActionName);
appList = Assert.IsType<ListAppsViewModel>(Assert.IsType<ViewResult>(apps.ListApps().Result).Model);
Assert.Empty(appList.Apps);
}
}
[Fact]
public void InvoiceFlowThroughDifferentStatesCorrectly()
{
using (var tester = ServerTester.Create())
{
tester.Start();
var user = tester.NewAccount();
user.GrantAccess();
user.RegisterDerivationScheme("BTC");
var invoice = user.BitPay.CreateInvoice(new Invoice()
{
Price = 5000.0m,
Currency = "USD",
PosData = "posData",
OrderId = "orderId",
ItemDesc = "Some description",
FullNotifications = true
}, Facade.Merchant);
var repo = tester.PayTester.GetService<InvoiceRepository>();
var ctx = tester.PayTester.GetService<ApplicationDbContextFactory>().CreateContext();
Assert.Equal(0, invoice.CryptoInfo[0].TxCount);
Eventually(() =>
{
var textSearchResult = tester.PayTester.InvoiceRepository.GetInvoices(new InvoiceQuery()
{
StoreId = new[] { user.StoreId },
TextSearch = invoice.OrderId
}).GetAwaiter().GetResult();
Assert.Single(textSearchResult);
textSearchResult = tester.PayTester.InvoiceRepository.GetInvoices(new InvoiceQuery()
{
StoreId = new[] { user.StoreId },
TextSearch = invoice.Id
}).GetAwaiter().GetResult();
Assert.Single(textSearchResult);
});
invoice = user.BitPay.GetInvoice(invoice.Id, Facade.Merchant);
Assert.Equal(Money.Coins(0), invoice.BtcPaid);
Assert.Equal("new", invoice.Status);
Assert.False((bool)((JValue)invoice.ExceptionStatus).Value);
Assert.Single(user.BitPay.GetInvoices(invoice.InvoiceTime.UtcDateTime));
Assert.Empty(user.BitPay.GetInvoices(invoice.InvoiceTime.UtcDateTime + TimeSpan.FromDays(2)));
Assert.Single(user.BitPay.GetInvoices(invoice.InvoiceTime.UtcDateTime - TimeSpan.FromDays(5)));
Assert.Single(user.BitPay.GetInvoices(invoice.InvoiceTime.UtcDateTime - TimeSpan.FromDays(5), invoice.InvoiceTime.DateTime + TimeSpan.FromDays(1.0)));
Assert.Empty(user.BitPay.GetInvoices(invoice.InvoiceTime.UtcDateTime - TimeSpan.FromDays(5), invoice.InvoiceTime.DateTime - TimeSpan.FromDays(1)));
var firstPayment = Money.Coins(0.04m);
var txFee = Money.Zero;
var cashCow = tester.ExplorerNode;
var invoiceAddress = BitcoinAddress.Create(invoice.BitcoinAddress, cashCow.Network);
var iii = ctx.AddressInvoices.ToArray();
Assert.True(IsMapped(invoice, ctx));
cashCow.SendToAddress(invoiceAddress, firstPayment);
var invoiceEntity = repo.GetInvoice(null, invoice.Id, true).GetAwaiter().GetResult();
Assert.Single(invoiceEntity.HistoricalAddresses);
Assert.Null(invoiceEntity.HistoricalAddresses[0].UnAssigned);
Money secondPayment = Money.Zero;
Eventually(() =>
{
var localInvoice = user.BitPay.GetInvoice(invoice.Id, Facade.Merchant);
Assert.Equal("new", localInvoice.Status);
Assert.Equal(firstPayment, localInvoice.BtcPaid);
txFee = localInvoice.BtcDue - invoice.BtcDue;
Assert.Equal("paidPartial", localInvoice.ExceptionStatus.ToString());
Assert.Equal(1, localInvoice.CryptoInfo[0].TxCount);
Assert.NotEqual(localInvoice.BitcoinAddress, invoice.BitcoinAddress); //New address
Assert.True(IsMapped(invoice, ctx));
Assert.True(IsMapped(localInvoice, ctx));
invoiceEntity = repo.GetInvoice(null, invoice.Id, true).GetAwaiter().GetResult();
var historical1 = invoiceEntity.HistoricalAddresses.FirstOrDefault(h => h.GetAddress() == invoice.BitcoinAddress);
Assert.NotNull(historical1.UnAssigned);
var historical2 = invoiceEntity.HistoricalAddresses.FirstOrDefault(h => h.GetAddress() == localInvoice.BitcoinAddress);
Assert.Null(historical2.UnAssigned);
invoiceAddress = BitcoinAddress.Create(localInvoice.BitcoinAddress, cashCow.Network);
secondPayment = localInvoice.BtcDue;
});
cashCow.SendToAddress(invoiceAddress, secondPayment);
Eventually(() =>
{
var localInvoice = user.BitPay.GetInvoice(invoice.Id, Facade.Merchant);
Assert.Equal("paid", localInvoice.Status);
Assert.Equal(2, localInvoice.CryptoInfo[0].TxCount);
Assert.Equal(firstPayment + secondPayment, localInvoice.BtcPaid);
Assert.Equal(Money.Zero, localInvoice.BtcDue);
Assert.Equal(localInvoice.BitcoinAddress, invoiceAddress.ToString()); //no new address generated
Assert.True(IsMapped(localInvoice, ctx));
Assert.False((bool)((JValue)localInvoice.ExceptionStatus).Value);
});
cashCow.Generate(1); //The user has medium speed settings, so 1 conf is enough to be confirmed
Eventually(() =>
{
var localInvoice = user.BitPay.GetInvoice(invoice.Id, Facade.Merchant);
Assert.Equal("confirmed", localInvoice.Status);
});
cashCow.Generate(5); //Now should be complete
Eventually(() =>
{
var localInvoice = user.BitPay.GetInvoice(invoice.Id, Facade.Merchant);
Assert.Equal("complete", localInvoice.Status);
Assert.NotEqual(0.0m, localInvoice.Rate);
});
invoice = user.BitPay.CreateInvoice(new Invoice()
{
Price = 5000.0m,
Currency = "USD",
PosData = "posData",
OrderId = "orderId",
//RedirectURL = redirect + "redirect",
//NotificationURL = CallbackUri + "/notification",
ItemDesc = "Some description",
FullNotifications = true
}, Facade.Merchant);
invoiceAddress = BitcoinAddress.Create(invoice.BitcoinAddress, cashCow.Network);
cashCow.SendToAddress(invoiceAddress, invoice.BtcDue + Money.Coins(1));
Eventually(() =>
{
var localInvoice = user.BitPay.GetInvoice(invoice.Id, Facade.Merchant);
Assert.Equal("paid", localInvoice.Status);
Assert.Equal(Money.Zero, localInvoice.BtcDue);
Assert.Equal("paidOver", (string)((JValue)localInvoice.ExceptionStatus).Value);
});
cashCow.Generate(1);
Eventually(() =>
{
var localInvoice = user.BitPay.GetInvoice(invoice.Id, Facade.Merchant);
Assert.Equal("confirmed", localInvoice.Status);
Assert.Equal(Money.Zero, localInvoice.BtcDue);
Assert.Equal("paidOver", (string)((JValue)localInvoice.ExceptionStatus).Value);
});
}
}
[Fact]
public void CheckQuadrigacxRateProvider()
{
var quadri = new QuadrigacxRateProvider();
var rates = quadri.GetRatesAsync().GetAwaiter().GetResult();
Assert.NotEmpty(rates);
Assert.NotEqual(0.0m, rates.First().Value);
Assert.NotEqual(0.0m, rates.GetRate(QuadrigacxRateProvider.QuadrigacxName, CurrencyPair.Parse("BTC_CAD")).Value);
Assert.NotEqual(0.0m, rates.GetRate(QuadrigacxRateProvider.QuadrigacxName, CurrencyPair.Parse("BTC_USD")).Value);
Assert.NotEqual(0.0m, rates.GetRate(QuadrigacxRateProvider.QuadrigacxName, CurrencyPair.Parse("LTC_CAD")).Value);
Assert.Null(rates.GetRate(QuadrigacxRateProvider.QuadrigacxName, CurrencyPair.Parse("LTC_USD")));
}
[Fact]
public void CanQueryDirectProviders()
{
var provider = new BTCPayNetworkProvider(NetworkType.Mainnet);
var factory = CreateBTCPayRateFactory(provider);
foreach (var result in factory
.DirectProviders
.Select(p => (ExpectedName: p.Key, ResultAsync: p.Value.GetRatesAsync()))
.ToList())
{
var exchangeRates = result.ResultAsync.Result;
Assert.NotNull(exchangeRates);
Assert.NotEmpty(exchangeRates);
Assert.NotEmpty(exchangeRates.ByExchange[result.ExpectedName]);
// This check if the currency pair is using right currency pair
Assert.Contains(exchangeRates.ByExchange[result.ExpectedName],
e => (e.CurrencyPair == new CurrencyPair("BTC", "USD") ||
e.CurrencyPair == new CurrencyPair("BTC", "EUR") ||
e.CurrencyPair == new CurrencyPair("BTC", "USDT"))
&& e.Value > 1.0m // 1BTC will always be more than 1USD
);
}
}
[Fact]
public void CanGetRateCryptoCurrenciesByDefault()
{
var provider = new BTCPayNetworkProvider(NetworkType.Mainnet);
var factory = CreateBTCPayRateFactory(provider);
var pairs =
provider.GetAll()
.Select(c => new CurrencyPair(c.CryptoCode, "USD"))
.ToHashSet();
var rules = new StoreBlob().GetDefaultRateRules(provider);
var result = factory.FetchRates(pairs, rules);
foreach (var value in result)
{
var rateResult = value.Value.GetAwaiter().GetResult();
Assert.NotNull(rateResult.Value);
}
}
private static BTCPayRateProviderFactory CreateBTCPayRateFactory(BTCPayNetworkProvider provider)
{
return new BTCPayRateProviderFactory(new MemoryCacheOptions() { ExpirationScanFrequency = TimeSpan.FromSeconds(1.0) }, provider, new CoinAverageSettings());
}
[Fact]
public void CheckRatesProvider()
{
var provider = new BTCPayNetworkProvider(NetworkType.Mainnet);
var coinAverage = new CoinAverageRateProvider();
var rates = coinAverage.GetRatesAsync().GetAwaiter().GetResult();
Assert.NotNull(rates.GetRate("coinaverage", new CurrencyPair("BTC", "JPY")));
var ratesBitpay = new BitpayRateProvider(new Bitpay(new Key(), new Uri("https://bitpay.com/"))).GetRatesAsync().GetAwaiter().GetResult();
Assert.NotNull(ratesBitpay.GetRate("bitpay", new CurrencyPair("BTC", "JPY")));
RateRules.TryParse("X_X = coinaverage(X_X);", out var rateRules);
var factory = CreateBTCPayRateFactory(provider);
factory.CacheSpan = TimeSpan.FromSeconds(10);
var fetchedRate = factory.FetchRate(CurrencyPair.Parse("BTC_USD"), rateRules).GetAwaiter().GetResult();
Assert.False(fetchedRate.Cached);
fetchedRate = factory.FetchRate(CurrencyPair.Parse("BTC_USD"), rateRules).GetAwaiter().GetResult();
Assert.True(fetchedRate.Cached);
Thread.Sleep(11000);
fetchedRate = factory.FetchRate(CurrencyPair.Parse("BTC_USD"), rateRules).GetAwaiter().GetResult();
Assert.False(fetchedRate.Cached);
fetchedRate = factory.FetchRate(CurrencyPair.Parse("BTC_USD"), rateRules).GetAwaiter().GetResult();
Assert.True(fetchedRate.Cached);
// Should cache at exchange level so this should hit the cache
var fetchedRate2 = factory.FetchRate(CurrencyPair.Parse("LTC_USD"), rateRules).GetAwaiter().GetResult();
Assert.True(fetchedRate.Cached);
Assert.NotEqual(fetchedRate.Value.Value, fetchedRate2.Value.Value);
// Should cache at exchange level this should not hit the cache as it is different exchange
RateRules.TryParse("X_X = bittrex(X_X);", out rateRules);
fetchedRate = factory.FetchRate(CurrencyPair.Parse("BTC_USD"), rateRules).GetAwaiter().GetResult();
Assert.False(fetchedRate.Cached);
}
private static bool IsMapped(Invoice invoice, ApplicationDbContext ctx)
{
var h = BitcoinAddress.Create(invoice.BitcoinAddress, Network.RegTest).ScriptPubKey.Hash.ToString();
return ctx.AddressInvoices.FirstOrDefault(i => i.InvoiceDataId == invoice.Id && i.GetAddress() == h) != null;
}
private void Eventually(Action act)
{
CancellationTokenSource cts = new CancellationTokenSource(20000);
while (true)
{
try
{
act();
break;
}
catch (XunitException) when (!cts.Token.IsCancellationRequested)
{
cts.Token.WaitHandle.WaitOne(500);
}
}
}
private async Task EventuallyAsync(Func<Task> act)
{
CancellationTokenSource cts = new CancellationTokenSource(20000);
while (true)
{
try
{
await act();
break;
}
catch (XunitException) when (!cts.Token.IsCancellationRequested)
{
await Task.Delay(500);
}
}
}
}
}