public async Task GET_Many_With_NumberOfUsers_Filter() { //Arrange - Scope the test with additional rightsHolder filter so that we can control which response we get var(token, organization) = await CreateStakeHolderUserInNewOrganizationAsync(); var rightsHolder = await CreateOrganizationAsync(); var excludedSinceTooFewUsages = await CreateSystemAsync(TestEnvironment.DefaultOrganizationId, AccessModifier.Public); var includedLowerBound = await CreateSystemAsync(TestEnvironment.DefaultOrganizationId, AccessModifier.Public); var includedAboveLowerBound = await CreateSystemAsync(TestEnvironment.DefaultOrganizationId, AccessModifier.Public); using var resp1 = await ItSystemHelper.SendSetBelongsToRequestAsync(excludedSinceTooFewUsages.dbId, rightsHolder.Id, TestEnvironment.DefaultOrganizationId); using var resp2 = await ItSystemHelper.SendSetBelongsToRequestAsync(includedLowerBound.dbId, rightsHolder.Id, TestEnvironment.DefaultOrganizationId); using var resp3 = await ItSystemHelper.SendSetBelongsToRequestAsync(includedAboveLowerBound.dbId, rightsHolder.Id, organization.Id); await TakeSystemIntoUseIn(excludedSinceTooFewUsages.dbId, TestEnvironment.DefaultOrganizationId); await TakeSystemIntoUseIn(includedLowerBound.dbId, TestEnvironment.DefaultOrganizationId, TestEnvironment.SecondOrganizationId); await TakeSystemIntoUseIn(includedAboveLowerBound.dbId, TestEnvironment.DefaultOrganizationId, TestEnvironment.SecondOrganizationId, rightsHolder.Id); Assert.Equal(HttpStatusCode.OK, resp1.StatusCode); Assert.Equal(HttpStatusCode.OK, resp2.StatusCode); Assert.Equal(HttpStatusCode.OK, resp3.StatusCode); //Act var systems = (await ItSystemV2Helper.GetManyAsync(token, rightsHolderId: rightsHolder.Uuid, numberOfUsers: 2)).ToList(); //Assert - only 2 are actually valid since the excluded one was hidden to the stakeholder Assert.Equal(2, systems.Count); Assert.Contains(systems, dto => dto.Uuid == includedLowerBound.uuid); Assert.Contains(systems, dto => dto.Uuid == includedAboveLowerBound.uuid); }
public async Task GET_Many_With_RightsHolderFilter() { //Arrange - make sure there are always systems to satisfy the test regardless of order var(token, organization) = await CreateStakeHolderUserInNewOrganizationAsync(); var rightsHolder = await CreateOrganizationAsync(); var unExpectedAsItIsLocalInNonMemberOrg = await CreateSystemAsync(TestEnvironment.DefaultOrganizationId, AccessModifier.Local); var expected1 = await CreateSystemAsync(TestEnvironment.DefaultOrganizationId, AccessModifier.Public); var expected2 = await CreateSystemAsync(organization.Id, AccessModifier.Local); using var resp1 = await ItSystemHelper.SendSetBelongsToRequestAsync(unExpectedAsItIsLocalInNonMemberOrg.dbId, rightsHolder.Id, TestEnvironment.DefaultOrganizationId); using var resp2 = await ItSystemHelper.SendSetBelongsToRequestAsync(expected1.dbId, rightsHolder.Id, TestEnvironment.DefaultOrganizationId); using var resp3 = await ItSystemHelper.SendSetBelongsToRequestAsync(expected2.dbId, rightsHolder.Id, organization.Id); Assert.Equal(HttpStatusCode.OK, resp1.StatusCode); Assert.Equal(HttpStatusCode.OK, resp2.StatusCode); Assert.Equal(HttpStatusCode.OK, resp3.StatusCode); //Act var systems = (await ItSystemV2Helper.GetManyAsync(token, rightsHolderId: rightsHolder.Uuid)).ToList(); //Assert - only 2 are actually valid since the excluded one was hidden to the stakeholder Assert.Equal(2, systems.Count); Assert.Contains(systems, dto => dto.Uuid == expected1.uuid); Assert.Contains(systems, dto => dto.Uuid == expected2.uuid); }
public async Task GET_Many_With_BusinessTypeFilter() { //Arrange var(token, _) = await CreateStakeHolderUserInNewOrganizationAsync(); var businessType1 = A <string>(); var businessType2 = A <string>(); const int organizationId = TestEnvironment.DefaultOrganizationId; var correctBusinessType = await EntityOptionHelper.CreateBusinessTypeAsync(businessType1, organizationId); var incorrectBusinessType = await EntityOptionHelper.CreateBusinessTypeAsync(businessType2, organizationId); var correctBusinessTypeId = TestEnvironment.GetEntityUuid <BusinessType>(correctBusinessType.Id); var unexpectedWrongBusinessType = await CreateSystemAsync(organizationId, AccessModifier.Public); var expected = await CreateSystemAsync(organizationId, AccessModifier.Public); using var setBt1 = await ItSystemHelper.SendSetBusinessTypeRequestAsync(expected.dbId, correctBusinessType.Id, organizationId); using var setBt2 = await ItSystemHelper.SendSetBusinessTypeRequestAsync(unexpectedWrongBusinessType.dbId, incorrectBusinessType.Id, organizationId); Assert.Equal(HttpStatusCode.OK, setBt1.StatusCode); Assert.Equal(HttpStatusCode.OK, setBt2.StatusCode); //Act var systems = (await ItSystemV2Helper.GetManyAsync(token, businessTypeId: correctBusinessTypeId)).ToList(); //Assert var dto = Assert.Single(systems); Assert.Equal(dto.Uuid, expected.uuid); }
public async Task GET_Many_Without_Filters() { //Arrange - make sure there are always systems to satisfy the test regardless of order var(token, organization) = await CreateStakeHolderUserInNewOrganizationAsync(); await CreateSystemAsync(organization.Id, AccessModifier.Local); await CreateSystemAsync(TestEnvironment.DefaultOrganizationId, AccessModifier.Public); //Act var systems = await ItSystemV2Helper.GetManyAsync(token, pageSize : 2); //Assert Assert.Equal(2, systems.Count()); }
public async Task GET_Many_With_KLE_Filter(bool useKeyAsFilter) { //Arrange var(token, _) = await CreateStakeHolderUserInNewOrganizationAsync(); const int organizationId = TestEnvironment.DefaultOrganizationId; var rand = new Random(DateTime.UtcNow.Millisecond); var correctRef = new { uuid = A <Guid>(), key = rand.Next().ToString("D"), }; var incorrectRef = new { uuid = A <Guid>(), key = rand.Next().ToString("D"), }; CreateTaskRefInDatabase(correctRef.key, correctRef.uuid); CreateTaskRefInDatabase(incorrectRef.key, incorrectRef.uuid); var correctRefDbId = DatabaseAccess.MapFromEntitySet <TaskRef, int>(rep => rep.AsQueryable().ByUuid(correctRef.uuid).Id); var incorrectRefDbId = DatabaseAccess.MapFromEntitySet <TaskRef, int>(rep => rep.AsQueryable().ByUuid(incorrectRef.uuid).Id); var systemWithWrongRef = await CreateSystemAsync(organizationId, AccessModifier.Public); var system1WithCorrectRef = await CreateSystemAsync(organizationId, AccessModifier.Public); var system2WithCorrectRef = await CreateSystemAsync(organizationId, AccessModifier.Public); using var addRefResponse1 = await ItSystemHelper.SendAddTaskRefRequestAsync(system1WithCorrectRef.dbId, correctRefDbId, organizationId); using var addRefResponse2 = await ItSystemHelper.SendAddTaskRefRequestAsync(system2WithCorrectRef.dbId, correctRefDbId, organizationId); using var addRefResponse3 = await ItSystemHelper.SendAddTaskRefRequestAsync(systemWithWrongRef.dbId, incorrectRefDbId, organizationId); Assert.Equal(HttpStatusCode.OK, addRefResponse1.StatusCode); Assert.Equal(HttpStatusCode.OK, addRefResponse2.StatusCode); Assert.Equal(HttpStatusCode.OK, addRefResponse3.StatusCode); //Act var kleKeyFilter = useKeyAsFilter ? correctRef.key : null; var kleUuidFilter = useKeyAsFilter ? (Guid?)null : correctRef.uuid; var systems = (await ItSystemV2Helper.GetManyAsync(token, kleKey: kleKeyFilter, kleUuid: kleUuidFilter)).ToList(); //Assert Assert.Equal(2, systems.Count); Assert.Contains(systems, x => x.Uuid == system1WithCorrectRef.uuid); Assert.Contains(systems, x => x.Uuid == system2WithCorrectRef.uuid); }