using System; using System.Threading.Tasks; using Bit.Core.Abstractions; using Bit.Core.Services; using Bit.Core.Models.Domain; using Bit.Core.Models.View; using Bit.Core.Enums; using Bit.Core.Utilities.Fido2; using Bit.Test.Common.AutoFixture; using NSubstitute; using NSubstitute.ExceptionExtensions; using Xunit; using Bit.Core.Utilities; using System.Collections.Generic; using System.Linq; using System.Formats.Cbor; namespace Bit.Core.Test.Services { public class Fido2AuthenticatorMakeCredentialTests : IDisposable { private readonly string _rpId = "bitwarden.com"; private readonly SutProvider _sutProvider = new SutProvider().Create(); private Cipher _encryptedSelectedCipher; private CipherView _selectedCipherView; private Fido2AuthenticatorMakeCredentialParams _params; private List _credentialIds; private List _ciphers; public Fido2AuthenticatorMakeCredentialTests() { _credentialIds = [ Guid.NewGuid(), Guid.NewGuid() ]; _ciphers = [ CreateCipherView(true, _credentialIds[0].ToString(), "bitwarden.com", false), CreateCipherView(true, _credentialIds[1].ToString(), "bitwarden.com", true) ]; _selectedCipherView = _ciphers[0]; _encryptedSelectedCipher = CreateCipher(); _encryptedSelectedCipher.Id = _selectedCipherView.Id; _params = new Fido2AuthenticatorMakeCredentialParams { UserEntity = new PublicKeyCredentialUserEntity { Id = RandomBytes(32), Name = "test" }, RpEntity = new PublicKeyCredentialRpEntity { Id = _rpId, Name = "Bitwarden" }, CredTypesAndPubKeyAlgs = [ new PublicKeyCredentialParameters { Type = "public-key", Alg = -7 // ES256 } ], RequireResidentKey = false, RequireUserVerification = false, ExcludeCredentialDescriptorList = null }; _sutProvider.GetDependency().GetAllDecryptedAsync().Returns(_ciphers); _sutProvider.GetDependency().EncryptAsync(Arg.Any()).Returns(_encryptedSelectedCipher); _sutProvider.GetDependency().GetAsync(Arg.Is(_encryptedSelectedCipher.Id)).Returns(_encryptedSelectedCipher); _sutProvider.GetDependency().ConfirmNewCredentialAsync(Arg.Any()).Returns(new Fido2ConfirmNewCredentialResult { CipherId = _selectedCipherView.Id, UserVerified = false }); var cryptoServiceMock = Substitute.For(); ServiceContainer.Register(typeof(CryptoService), cryptoServiceMock); } public void Dispose() { ServiceContainer.Reset(); } #region invalid input parameters [Fact] // Spec: Check if at least one of the specified combinations of PublicKeyCredentialType and cryptographic parameters in credTypesAndPubKeyAlgs is supported. If not, return an error code equivalent to "NotSupportedError" and terminate the operation. public async Task MakeCredentialAsync_ThrowsNotSupported_NoSupportedAlgorithm() { // Arrange _params.CredTypesAndPubKeyAlgs = [ new PublicKeyCredentialParameters { Type = "public-key", Alg = -257 // RS256 which we do not support } ]; // Act & Assert await Assert.ThrowsAsync(() => _sutProvider.Sut.MakeCredentialAsync(_params)); } #endregion #region vault contains excluded credential [Fact] // Spec: collect an authorization gesture confirming user consent for creating a new credential. // Deviation: Consent is not asked and the user is simply informed of the situation. public async Task MakeCredentialAsync_InformsUser_ExcludedCredentialFound() { // Arrange _params.ExcludeCredentialDescriptorList = [ new PublicKeyCredentialDescriptor { Type = "public-key", Id = _credentialIds[0].ToByteArray() } ]; // Act try { await _sutProvider.Sut.MakeCredentialAsync(_params); } catch {} // Assert await _sutProvider.GetDependency().Received().InformExcludedCredential(Arg.Is( (c) => c.SequenceEqual(new string[] { _ciphers[0].Id }) )); } [Fact] // Spec: return an error code equivalent to "NotAllowedError" and terminate the operation. public async Task MakeCredentialAsync_ThrowsNotAllowed_ExcludedCredentialFound() { _params.ExcludeCredentialDescriptorList = [ new PublicKeyCredentialDescriptor { Type = "public-key", Id = _credentialIds[0].ToByteArray() } ]; await Assert.ThrowsAsync(() => _sutProvider.Sut.MakeCredentialAsync(_params)); } [Fact] // Deviation: Organization ciphers are not checked against excluded credentials, even if the user has access to them. public async Task MakeCredentialAsync_DoesNotInformAboutExcludedCredential_ExcludedCredentialBelongsToOrganization() { _ciphers[0].OrganizationId = "someOrganizationId"; _params.ExcludeCredentialDescriptorList = [ new PublicKeyCredentialDescriptor { Type = "public-key", Id = _credentialIds[0].ToByteArray() } ]; await _sutProvider.Sut.MakeCredentialAsync(_params); await _sutProvider.GetDependency().DidNotReceive().InformExcludedCredential(Arg.Any()); } #endregion #region credential creation [Fact] public async Task MakeCredentialAsync_RequestsUserVerification_ParamsRequireUserVerification() { // Arrange _params.RequireUserVerification = true; _sutProvider.GetDependency().ConfirmNewCredentialAsync(Arg.Any()).Returns(new Fido2ConfirmNewCredentialResult { CipherId = _selectedCipherView.Id, UserVerified = true }); // Act await _sutProvider.Sut.MakeCredentialAsync(_params); // Assert await _sutProvider.GetDependency().Received().ConfirmNewCredentialAsync(Arg.Is( (p) => p.UserVerification == true )); } [Fact] public async Task MakeCredentialAsync_DoesNotRequestUserVerification_ParamsDoNotRequireUserVerification() { // Arrange _params.RequireUserVerification = false; // Act await _sutProvider.Sut.MakeCredentialAsync(_params); // Assert await _sutProvider.GetDependency().Received().ConfirmNewCredentialAsync(Arg.Is( (p) => p.UserVerification == false )); } [Fact] public async Task MakeCredentialAsync_SavesNewCredential_RequestConfirmedByUser() { // Arrange _params.RequireResidentKey = true; // Act await _sutProvider.Sut.MakeCredentialAsync(_params); // Assert await _sutProvider.GetDependency().Received().EncryptAsync(Arg.Is( (c) => c.Login.MainFido2Credential.KeyType == "public-key" && c.Login.MainFido2Credential.KeyAlgorithm == "ECDSA" && c.Login.MainFido2Credential.KeyCurve == "P-256" && c.Login.MainFido2Credential.RpId == _params.RpEntity.Id && c.Login.MainFido2Credential.RpName == _params.RpEntity.Name && c.Login.MainFido2Credential.UserHandle == CoreHelpers.Base64UrlEncode(_params.UserEntity.Id) && c.Login.MainFido2Credential.UserName == _params.UserEntity.Name && c.Login.MainFido2Credential.CounterValue == 0 && // c.Login.MainFido2Credential.UserDisplayName == _params.UserEntity.DisplayName && c.Login.MainFido2Credential.DiscoverableValue == true )); await _sutProvider.GetDependency().Received().SaveWithServerAsync(_encryptedSelectedCipher); } [Fact] // Spec: If the user does not consent or if user verification fails, return an error code equivalent to "NotAllowedError" and terminate the operation. public async Task MakeCredentialAsync_ThrowsNotAllowed_RequestNotConfirmedByUser() { // Arrange _sutProvider.GetDependency().ConfirmNewCredentialAsync(Arg.Any()).Returns(new Fido2ConfirmNewCredentialResult { CipherId = null, UserVerified = false }); // Act & Assert await Assert.ThrowsAsync(() => _sutProvider.Sut.MakeCredentialAsync(_params)); } [Fact] public async Task MakeCredentialAsync_ThrowsNotAllowed_NoUserVerificationWhenRequiredByParams() { // Arrange _params.RequireUserVerification = true; _sutProvider.GetDependency().ConfirmNewCredentialAsync(Arg.Any()).Returns(new Fido2ConfirmNewCredentialResult { CipherId = _encryptedSelectedCipher.Id, UserVerified = false }); // Act & Assert await Assert.ThrowsAsync(() => _sutProvider.Sut.MakeCredentialAsync(_params)); } [Fact] public async Task MakeCredentialAsync_ThrowsNotAllowed_NoUserVerificationForCipherWithReprompt() { // Arrange _params.RequireUserVerification = false; _encryptedSelectedCipher.Reprompt = CipherRepromptType.Password; _sutProvider.GetDependency().ConfirmNewCredentialAsync(Arg.Any()).Returns(new Fido2ConfirmNewCredentialResult { CipherId = _encryptedSelectedCipher.Id, UserVerified = false }); // Act & Assert await Assert.ThrowsAsync(() => _sutProvider.Sut.MakeCredentialAsync(_params)); } [Fact] public async Task MakeCredentialAsync_ThrowsUnknownError_SavingCipherFails() { // Arrange _sutProvider.GetDependency().SaveWithServerAsync(Arg.Any()).Throws(new Exception("Error")); // Act & Assert await Assert.ThrowsAsync(() => _sutProvider.Sut.MakeCredentialAsync(_params)); } [Fact] public async Task MakeCredentialAsync_ReturnsAttestation() { // Arrange var rpIdHashMock = RandomBytes(32); _sutProvider.GetDependency().HashAsync(_params.RpEntity.Id, CryptoHashAlgorithm.Sha256).Returns(rpIdHashMock); CipherView generatedCipherView = null; _sutProvider.GetDependency().EncryptAsync(Arg.Any()).Returns((call) => { generatedCipherView = call.Arg(); return _encryptedSelectedCipher; }); // Act var result = await _sutProvider.Sut.MakeCredentialAsync(_params); // Assert var credentialIdBytes = Guid.Parse(generatedCipherView.Login.MainFido2Credential.CredentialId).ToByteArray(); var attestationObject = DecodeAttestationObject(result.AttestationObject); Assert.Equal("none", attestationObject.Fmt); var authData = attestationObject.AuthData; var rpIdHash = authData.Take(32).ToArray(); var flags = authData.Skip(32).Take(1).ToArray(); var counter = authData.Skip(33).Take(4).ToArray(); var aaguid = authData.Skip(37).Take(16).ToArray(); var credentialIdLength = authData.Skip(53).Take(2).ToArray(); var credentialId = authData.Skip(55).Take(16).ToArray(); // Unsure how to test public key // const publicKey = authData.Skip(71).ToArray(); // Key data is 77 bytes long Assert.Equal(71 + 77, authData.Length); Assert.Equal(rpIdHashMock, rpIdHash); Assert.Equal([0b01000001], flags); // UP = true, AD = true Assert.Equal([0, 0, 0, 0], counter); Assert.Equal(Fido2AuthenticatorService.AAGUID, aaguid); Assert.Equal([0, 16], credentialIdLength); // 16 bytes because we're using GUIDs Assert.Equal(credentialIdBytes, credentialId); } #endregion private byte[] RandomBytes(int length) { var bytes = new byte[length]; new Random().NextBytes(bytes); return bytes; } #nullable enable private CipherView CreateCipherView(bool? withFido2Credential, string? credentialId = null, string? rpId = null, bool? discoverable = null) { return new CipherView { Type = CipherType.Login, Id = Guid.NewGuid().ToString(), Reprompt = CipherRepromptType.None, Login = new LoginView { Fido2Credentials = withFido2Credential.HasValue && withFido2Credential.Value ? new List { new Fido2CredentialView { CredentialId = credentialId ?? Guid.NewGuid().ToString(), RpId = rpId ?? "bitwarden.com", Discoverable = discoverable.HasValue ? discoverable.ToString() : "true", UserHandleValue = RandomBytes(32) } } : null } }; } private Cipher CreateCipher() { return new Cipher { Id = Guid.NewGuid().ToString(), Type = CipherType.Login, Key = null, Attachments = [], Login = new Login {}, }; } private struct AttestationObject { public string? Fmt { get; set; } public object? AttStmt { get; set; } public byte[]? AuthData { get; set; } } private AttestationObject DecodeAttestationObject(byte[] attestationObject) { string? fmt = null; object? attStmt = null; byte[]? authData = null; var reader = new CborReader(attestationObject, CborConformanceMode.Ctap2Canonical); reader.ReadStartMap(); while (reader.BytesRemaining != 0) { var key = reader.ReadTextString(); switch (key) { case "fmt": fmt = reader.ReadTextString(); break; case "attStmt": reader.ReadStartMap(); reader.ReadEndMap(); break; case "authData": authData = reader.ReadByteString(); break; default: throw new Exception("Unknown key"); } } return new AttestationObject { Fmt = fmt, AttStmt = attStmt, AuthData = authData }; } } }