private void WriteResourceToOutputDirectory(ResourceReference<XmlTestElement> resourceRef, Type testClass, String outputPath) { string path = resourceRef.getResourcePath(); Stream resource = new ResourceFinder(testClass).GetResource(path); if (resource == null) { resource = new ResourceFinder(typeof(MarkupWriter)).GetResource(path); if (resource == null) { StringBuilder sb = new StringBuilder(); string[] resourceNames = typeof(MarkupWriter).Assembly.GetManifestResourceNames(); sb.AppendLine("resource count: " + resourceNames.Length); foreach (string s in resourceNames) { sb.AppendLine("resource: " + s); } throw new XcordionBug(sb.ToString() + "Cannot find resource: " + path); } } using (resource) { path = path.Replace('/', Path.DirectorySeparatorChar); while (path[0] == Path.DirectorySeparatorChar) { path = path.Substring(1); } FileInfo outputFile = new FileInfo(outputDirectory.FullName + Path.DirectorySeparatorChar + path); if (!outputFile.Directory.Exists) { Mkdirs(outputFile.Directory); } resourceRef.setResourceReferenceUri(FileUtils.relativePath(outputPath, path, false, Path.DirectorySeparatorChar)); if (outputFile.Exists && outputFile.LastWriteTime < DateTime.Now.AddSeconds(5)) { return; } byte[] bytes = new byte[resource.Length]; resource.Read(bytes, 0, bytes.Length); File.WriteAllBytes(outputFile.FullName, bytes); } }
public string Cast(ResourceReference reference) { if (reference == null) { return(null); } if (reference.Url == null) { return(null); } string uri = reference.Url.ToString(); string[] s = uri.ToString().Split('#'); if (s.Count() == 2) { string system = s[0]; string code = s[1]; if (string.IsNullOrEmpty(system)) { return(container_id + "#" + code); } } return(uri.ToString()); }
public void GetAbsoluteUri() { var r = new ResourceReference { Reference = "Patient/4" }; Assert.AreEqual("http://someserver.org/fhir/Patient/4", r.GetAbsoluteUriForReference("http://someserver.org/fhir/Observation/5").ToString()); r.Reference = "http://otherserver.org/fhir/Patient/4"; Assert.AreEqual("http://otherserver.org/fhir/Patient/4", r.GetAbsoluteUriForReference("http://someserver.org/fhir/Observation/5").ToString()); Assert.AreEqual("http://otherserver.org/fhir/Patient/4", r.GetAbsoluteUriForReference("urn:uuid:d0dd51d3-3ab2-4c84-b697-a630c3e40e7a").ToString()); r.Reference = "urn:uuid:d0dd51d3-3ab2-4c84-b697-a630c3e40e7a"; Assert.AreEqual("urn:uuid:d0dd51d3-3ab2-4c84-b697-a630c3e40e7a", r.GetAbsoluteUriForReference("http://someserver.org/fhir/Observation/5").ToString()); try { r.Reference = "Patient/4"; var dummy = r.GetAbsoluteUriForReference("urn:uuid:d0dd51d3-3ab2-4c84-b697-a630c3e40e7a"); Assert.Fail(); } catch { } }
/** * Build out this source description with a descriptor ref. * * @param descriptorRef The descriptor ref. * @return this. */ public SourceDescription SetDescriptorRef(ResourceReference descriptorRef) { DescriptorRef = descriptorRef; return(this); }
public static CapabilityStatement AddSingleResourceComponent(this CapabilityStatement conformance, String resourcetype, Boolean readhistory, Boolean updatecreate, CapabilityStatement.ResourceVersionPolicy versioning, ResourceReference profile = null) { var resource = new CapabilityStatement.ResourceComponent(); resource.Type = Hacky.GetResourceTypeForResourceName(resourcetype); resource.Profile = profile; resource.ReadHistory = readhistory; resource.UpdateCreate = updatecreate; resource.Versioning = versioning; conformance.Server().Resource.Add(resource); return(conformance); }
///<summary> /// Set a live varible value ///</summary> ///<param name="variable">The variable to write</param> ///<param name="value">The value to set the variable to</param> public void SetValue(ResourceReference variable, object value) { ProvideValues.SetValue(DeployPath.GetDeployPath(variable), value); }
/** * Build out this source description with an analyis. * @param analysis The analysis. * @return this. */ public SourceDescription AddAnalysis(ResourceReference analysis) { Analysis = analysis; return(this); }
public void InjectDds(TagSerializer serializer, TagDeserializer deserializer, Bitmap bitmap, int imageIndex, Stream ddsStream) { var resource = bitmap.Resources[imageIndex].Resource; var newResource = (resource == null); ResourceSerializationContext resourceContext; BitmapTextureResourceDefinition definition; if (newResource) { // Create a new resource reference resource = new ResourceReference { DefinitionFixups = new List<ResourceDefinitionFixup>(), D3DObjectFixups = new List<D3DObjectFixup>(), Type = 1, // TODO: Map out this type enum instead of using numbers Unknown68 = 1 }; bitmap.Resources[imageIndex].Resource = resource; resourceContext = new ResourceSerializationContext(resource); definition = new BitmapTextureResourceDefinition { Texture = new D3DPointer<BitmapTextureResourceDefinition.BitmapDefinition> { Definition = new BitmapTextureResourceDefinition.BitmapDefinition() } }; } else { // Deserialize the old definition resourceContext = new ResourceSerializationContext(resource); definition = deserializer.Deserialize<BitmapTextureResourceDefinition>(resourceContext); } if (definition.Texture == null || definition.Texture.Definition == null) throw new ArgumentException("Invalid bitmap definition"); var texture = definition.Texture.Definition; var imageData = bitmap.Images[imageIndex]; // Read the DDS header and modify the definition to match var dds = DdsHeader.Read(ddsStream); var dataSize = (int)(ddsStream.Length - ddsStream.Position); texture.Data = new ResourceDataReference(dataSize, new ResourceAddress(ResourceAddressType.Resource, 0)); texture.Width = (short)dds.Width; texture.Height = (short)dds.Height; texture.Depth = (sbyte)Math.Max(1, dds.Depth); texture.Levels = (sbyte)Math.Max(1, dds.MipMapCount); texture.Type = BitmapDdsFormatDetection.DetectType(dds); texture.D3DFormatUnused = (int)((dds.D3D10Format != DxgiFormat.Bc5UNorm) ? dds.FourCc : DdsFourCc.FromString("ATI2")); texture.Format = BitmapDdsFormatDetection.DetectFormat(dds); // Set flags based on the format switch (texture.Format) { case BitmapFormat.Dxt1: case BitmapFormat.Dxt3: case BitmapFormat.Dxt5: case BitmapFormat.Dxn: texture.Flags = BitmapFlags.Compressed; break; default: texture.Flags = BitmapFlags.None; break; } if ((texture.Width & (texture.Width - 1)) == 0 && (texture.Height & (texture.Height - 1)) == 0) texture.Flags |= BitmapFlags.PowerOfTwoDimensions; // If creating a new image, then add a new resource, otherwise replace the existing one if (newResource) _resourceManager.Add(resource, ResourceLocation.Textures, ddsStream); else _resourceManager.Replace(resource, ddsStream); // Serialize the new resource definition serializer.Serialize(resourceContext, definition); // Modify the image data in the bitmap tag to match the definition imageData.Width = texture.Width; imageData.Height = texture.Height; imageData.Depth = texture.Depth; imageData.Type = texture.Type; imageData.Format = texture.Format; imageData.Flags = texture.Flags; imageData.MipmapCount = (sbyte)(texture.Levels - 1); imageData.DataOffset = texture.Data.Address.Offset; imageData.DataSize = texture.Data.Size; imageData.Unknown15 = texture.Unknown35; }
public string GetSubjectReferenceId(ResourceReference reference) { return(_validationHelper.GetResourceReferenceId(reference, FhirConstants.SystemPDS)); }
private static Boolean isTheListSubjectValid(ResourceReference subject) { return(!(null == subject.Reference && null == subject.Identifier)); }
internal IResource ResolveResource( ResourceReference resourceReference, ResourceReference originalReference ) { ManifestResourceRow resRow = this.PEFileReader.ManifestResourceTable[resourceReference.ResourceRowId]; uint tokenType = resRow.Implementation & TokenTypeIds.TokenTypeMask; if (tokenType == TokenTypeIds.AssemblyRef) { AssemblyReference/*?*/ assemblyReference = this.GetAssemblyReferenceAt(resRow.Implementation & TokenTypeIds.RIDMask); if (assemblyReference == null) { // MDError return Dummy.Resource; } var assembly = assemblyReference.ResolvedAssembly as Assembly; if (assembly == null) { // MDError return Dummy.Resource; } ResourceReference/*?*/ resRef = assembly.PEFileToObjectModel.LookupResourceReference(resourceReference.Name); if (resRef == originalReference) { // MDError return Dummy.Resource; } if (resRef == null) return Dummy.Resource; return assembly.PEFileToObjectModel.ResolveResource(resRef, originalReference); } else { return new Resource(this, resourceReference.ResourceRowId, resourceReference.Name, resRow.Flags, (resRow.Implementation & TokenTypeIds.RIDMask) != 0); } }
private static string GetIdFromRef(ResourceReference refer, string resourceName) { return(string.IsNullOrEmpty(refer.ElementId) ? refer.Reference.Replace($"{resourceName}/", string.Empty) : refer.ElementId); }
/// <summary> /// Deserialize JSON into a FHIR Reference /// </summary> public static void DeserializeJsonProperty(this ResourceReference current, ref Utf8JsonReader reader, JsonSerializerOptions options, string propertyName) { switch (propertyName) { case "reference": if (reader.TokenType == JsonTokenType.Null) { current.ReferenceElement = new FhirString(); reader.Skip(); } else { current.ReferenceElement = new FhirString(reader.GetString()); } break; case "_reference": if (current.ReferenceElement == null) { current.ReferenceElement = new FhirString(); } ((Hl7.Fhir.Model.Element)current.ReferenceElement).DeserializeJson(ref reader, options); break; case "type": if (reader.TokenType == JsonTokenType.Null) { current.TypeElement = new FhirUri(); reader.Skip(); } else { current.TypeElement = new FhirUri(reader.GetString()); } break; case "_type": if (current.TypeElement == null) { current.TypeElement = new FhirUri(); } ((Hl7.Fhir.Model.Element)current.TypeElement).DeserializeJson(ref reader, options); break; case "identifier": current.Identifier = new Hl7.Fhir.Model.Identifier(); ((Hl7.Fhir.Model.Identifier)current.Identifier).DeserializeJson(ref reader, options); break; case "display": if (reader.TokenType == JsonTokenType.Null) { current.DisplayElement = new FhirString(); reader.Skip(); } else { current.DisplayElement = new FhirString(reader.GetString()); } break; case "_display": if (current.DisplayElement == null) { current.DisplayElement = new FhirString(); } ((Hl7.Fhir.Model.Element)current.DisplayElement).DeserializeJson(ref reader, options); break; // Complex: Reference, Export: ResourceReference, Base: Element default: ((Hl7.Fhir.Model.Element)current).DeserializeJsonProperty(ref reader, options, propertyName); break; } }
public static ResourceReference GetComponentDefinition(this ResourceReference component) { return(component); }
public ResourceSerializationContext(ResourceReference resource) { _resource = resource; }
/** * Build up this event role with a person. * @param person The person. * @return this. */ public EventRole SetPerson(ResourceReference person) { Person = person; return(this); }
/// <summary> /// Checks whether the <see cref="ResourceReference"/> instance is empty or not. /// </summary> /// <param name="reference">The reference instance to check.</param> /// <returns><c>true</c> if the instance is empty; <c>false</c> otherwise.</returns> public static bool IsEmpty(this ResourceReference reference) { EnsureArg.IsNotNull(reference, nameof(reference)); return(string.IsNullOrWhiteSpace(reference.Reference)); }
public void GivenAReferenceNode_WhenCryptoHash_PartlyHashedNodeShouldBeReturned(ResourceReference reference, string expectedValue) { var processor = new CryptoHashProcessor(TestHashKey); var referenceNode = CreateNodeFromElement(reference) .Children("reference").FirstOrDefault() as ElementNode; processor.Process(referenceNode); Assert.Equal(expectedValue, referenceNode.Value); }
/// <summary> /// When a ResourceReference is relative, use the parent resource's fullUrl (e.g. from a Bundle's entry) /// to make it absolute. /// </summary> /// <param name="reference">The ResourceReference to get the (possibily relative) url from</param> /// <param name="parentResourceUri">Absolute uri representing the location of the resource this reference is in.</param> /// <remarks>Implements (part of the logic) as described in bundle.html#6.7.4.1</remarks> /// <returns></returns> public static Uri GetAbsoluteUriForReference(this ResourceReference reference, string parentResourceUri) { return(reference.GetAbsoluteUriForReference(new Uri(parentResourceUri, UriKind.RelativeOrAbsolute))); }
public static void AddOperation(this CapabilityStatement conformance, String name, ResourceReference definition) { var operation = new CapabilityStatement.OperationComponent(); operation.Name = name; operation.Definition = definition; conformance.Server().Operation.Add(operation); }
/// <summary> /// Populates the Resource reference cache /// </summary> void InitResourceReferenceArray() //^ ensures this.ResourceReferenceArray != null; { lock (GlobalLock.LockingObject) { if (this.ResourceReferenceArray == null) { uint num = this.PEFileReader.ManifestResourceTable.NumberOfRows; ResourceReference[] resourceReferenceArray = new ResourceReference[num + 1]; for (uint i = 1; i <= num; ++i) { ManifestResourceRow resRow = this.PEFileReader.ManifestResourceTable[i]; IName name = this.GetNameFromOffset(resRow.Name); uint tokenType = resRow.Implementation & TokenTypeIds.TokenTypeMask; IAssemblyReference defAssemRef = Dummy.AssemblyReference; if (tokenType == TokenTypeIds.File || resRow.Implementation == 0) { resourceReferenceArray[i] = new Resource(this, i, name, resRow.Flags, tokenType == TokenTypeIds.File); } else if (tokenType == TokenTypeIds.AssemblyRef) { AssemblyReference/*?*/ assemblyRef = this.GetAssemblyReferenceAt(resRow.Implementation & TokenTypeIds.RIDMask); if (assemblyRef == null) { // MDError } else { resourceReferenceArray[i] = new ResourceReference(this, i, assemblyRef, resRow.Flags, name); } } else { // MDError } } this.ResourceReferenceArray = resourceReferenceArray; } } }
protected override async Task OnInitializedAsync() { // Test case #1 // Create resources that directly referenced by the Patient resource Organization = await TestFhirClient.CreateAsync(Samples.GetJsonSample <Organization>("Organization")); string organizationReference = $"Organization/{Organization.Id}"; // Create Patient resource Patient patientToCreate = Samples.GetJsonSample <Patient>("Patient-f001"); patientToCreate.ManagingOrganization.Reference = organizationReference; patientToCreate.GeneralPractitioner = new List <ResourceReference> { new(organizationReference), }; Patient = await TestFhirClient.CreateAsync(patientToCreate); string patientReference = $"Patient/{Patient.Id}"; // Create resources that references the Patient resource Device deviceToCreate = Samples.GetJsonSample <Device>("Device-d1"); deviceToCreate.Patient = new ResourceReference(patientReference); Device = await TestFhirClient.CreateAsync(deviceToCreate); // Create Patient compartment resources Observation observationToCreate = Samples.GetJsonSample <Observation>("Observation-For-Patient-f001"); observationToCreate.Subject.Reference = patientReference; Observation = await TestFhirClient.CreateAsync(observationToCreate); Encounter encounterToCreate = Samples.GetJsonSample <Encounter>("Encounter-For-Patient-f001"); encounterToCreate.Subject.Reference = patientReference; Encounter = await TestFhirClient.CreateAsync(encounterToCreate); Appointment appointmentToCreate = Samples.GetJsonSample <Appointment>("Appointment"); appointmentToCreate.Participant = new List <Appointment.ParticipantComponent> { new() { Actor = new ResourceReference(patientReference), }, }; Appointment = await TestFhirClient.CreateAsync(appointmentToCreate); // Test case #2 // Create resources for a non-existent patient patientToCreate.Id = "non-existent-patient-id"; NonExistentPatient = await TestFhirClient.CreateAsync(patientToCreate); patientReference = $"Patient/{NonExistentPatient.Id}"; deviceToCreate.Patient = new ResourceReference(patientReference); DeviceOfNonExistentPatient = await TestFhirClient.CreateAsync(deviceToCreate); observationToCreate.Subject.Reference = patientReference; ObservationOfNonExistentPatient = await TestFhirClient.CreateAsync(observationToCreate); await TestFhirClient.DeleteAsync(NonExistentPatient); }
public void InjectDds(TagSerializer serializer, TagDeserializer deserializer, Bitmap bitmap, int imageIndex, Stream ddsStream) { var resource = bitmap.Resources[imageIndex].Resource; var newResource = (resource == null); ResourceSerializationContext resourceContext; BitmapTextureResourceDefinition definition; if (newResource) { // Create a new resource reference resource = new ResourceReference { DefinitionFixups = new List <ResourceDefinitionFixup>(), D3DObjectFixups = new List <D3DObjectFixup>(), Type = 1, // TODO: Map out this type enum instead of using numbers Unknown68 = 1 }; bitmap.Resources[imageIndex].Resource = resource; resourceContext = new ResourceSerializationContext(resource); definition = new BitmapTextureResourceDefinition { Texture = new D3DPointer <BitmapTextureResourceDefinition.BitmapDefinition> { Definition = new BitmapTextureResourceDefinition.BitmapDefinition() } }; } else { // Deserialize the old definition resourceContext = new ResourceSerializationContext(resource); definition = deserializer.Deserialize <BitmapTextureResourceDefinition>(resourceContext); } if (definition.Texture == null || definition.Texture.Definition == null) { throw new ArgumentException("Invalid bitmap definition"); } var texture = definition.Texture.Definition; var imageData = bitmap.Images[imageIndex]; // Read the DDS header and modify the definition to match var dds = DdsHeader.Read(ddsStream); var dataSize = (int)(ddsStream.Length - ddsStream.Position); texture.Data = new ResourceDataReference(dataSize, new ResourceAddress(ResourceAddressType.Resource, 0)); texture.Width = (short)dds.Width; texture.Height = (short)dds.Height; texture.Depth = (sbyte)Math.Max(1, dds.Depth); texture.Levels = (sbyte)Math.Max(1, dds.MipMapCount); texture.Type = BitmapDdsFormatDetection.DetectType(dds); texture.D3DFormatUnused = (int)((dds.D3D10Format != DxgiFormat.Bc5UNorm) ? dds.FourCc : DdsFourCc.FromString("ATI2")); texture.Format = BitmapDdsFormatDetection.DetectFormat(dds); // Set flags based on the format switch (texture.Format) { case BitmapFormat.Dxt1: case BitmapFormat.Dxt3: case BitmapFormat.Dxt5: case BitmapFormat.Dxn: texture.Flags = BitmapFlags.Compressed; break; default: texture.Flags = BitmapFlags.None; break; } if ((texture.Width & (texture.Width - 1)) == 0 && (texture.Height & (texture.Height - 1)) == 0) { texture.Flags |= BitmapFlags.PowerOfTwoDimensions; } // If creating a new image, then add a new resource, otherwise replace the existing one if (newResource) { _resourceManager.Add(resource, ResourceLocation.Textures, ddsStream); } else { _resourceManager.Replace(resource, ddsStream); } // Serialize the new resource definition serializer.Serialize(resourceContext, definition); // Modify the image data in the bitmap tag to match the definition imageData.Width = texture.Width; imageData.Height = texture.Height; imageData.Depth = texture.Depth; imageData.Type = texture.Type; imageData.Format = texture.Format; imageData.Flags = texture.Flags; imageData.MipmapCount = (sbyte)(texture.Levels - 1); imageData.DataOffset = texture.Data.Address.Offset; imageData.DataSize = texture.Data.Size; imageData.Unknown15 = texture.Unknown35; }
/// <summary> /// Validate a Secret in the profile. /// </summary> /// <param name='operations'> /// The operations group for this extension method. /// </param> /// <param name='secretSource'> /// The secret source. /// </param> /// <param name='secretType'> /// The secret type. Possible values include: 'UrlSigningKey', /// 'ManagedCertificate', 'CustomerCertificate' /// </param> public static ValidateSecretOutput SecretMethod(this IValidateOperations operations, ResourceReference secretSource, string secretType) { return(operations.SecretMethodAsync(secretSource, secretType).GetAwaiter().GetResult()); }
public string GetOrganizationReferenceId(ResourceReference reference) { return(_validationHelper.GetResourceReferenceId(reference, FhirConstants.SystemODS)); }
/// <summary> /// Validate a Secret in the profile. /// </summary> /// <param name='operations'> /// The operations group for this extension method. /// </param> /// <param name='secretSource'> /// The secret source. /// </param> /// <param name='secretType'> /// The secret type. Possible values include: 'UrlSigningKey', /// 'ManagedCertificate', 'CustomerCertificate' /// </param> /// <param name='cancellationToken'> /// The cancellation token. /// </param> public static async Task <ValidateSecretOutput> SecretMethodAsync(this IValidateOperations operations, ResourceReference secretSource, string secretType, CancellationToken cancellationToken = default(CancellationToken)) { using (var _result = await operations.SecretMethodWithHttpMessagesAsync(secretSource, secretType, null, cancellationToken).ConfigureAwait(false)) { return(_result.Body); } }
/// <summary> /// Get a single live value /// </summary> /// <param name="variable">The variable to read</param> /// <returns>The value of that variable</returns> /// <remarks>Will return null if the variable does not exist</remarks> public object GetValue(ResourceReference variable) { return(ProvideValues.GetValue(DeployPath.GetDeployPath(variable))); }
/// <summary> /// Validate a Secret in the profile. /// </summary> /// <param name='secretSource'> /// The secret source. /// </param> /// <param name='secretType'> /// The secret type. Possible values include: 'UrlSigningKey', /// 'ManagedCertificate', 'CustomerCertificate' /// </param> /// <param name='customHeaders'> /// Headers that will be added to request. /// </param> /// <param name='cancellationToken'> /// The cancellation token. /// </param> /// <exception cref="AfdErrorResponseException"> /// Thrown when the operation returned an invalid status code /// </exception> /// <exception cref="SerializationException"> /// Thrown when unable to deserialize the response /// </exception> /// <exception cref="ValidationException"> /// Thrown when a required parameter is null /// </exception> /// <exception cref="System.ArgumentNullException"> /// Thrown when a required parameter is null /// </exception> /// <return> /// A response object containing the response body and response headers. /// </return> public async Task <AzureOperationResponse <ValidateSecretOutput> > SecretMethodWithHttpMessagesAsync(ResourceReference secretSource, string secretType, Dictionary <string, List <string> > customHeaders = null, CancellationToken cancellationToken = default(CancellationToken)) { if (Client.SubscriptionId == null) { throw new ValidationException(ValidationRules.CannotBeNull, "this.Client.SubscriptionId"); } if (Client.ApiVersion == null) { throw new ValidationException(ValidationRules.CannotBeNull, "this.Client.ApiVersion"); } if (secretSource == null) { throw new ValidationException(ValidationRules.CannotBeNull, "secretSource"); } if (secretType == null) { throw new ValidationException(ValidationRules.CannotBeNull, "secretType"); } ValidateSecretInput validateSecretInput = new ValidateSecretInput(); if (secretSource != null || secretType != null) { validateSecretInput.SecretSource = secretSource; validateSecretInput.SecretType = secretType; } // Tracing bool _shouldTrace = ServiceClientTracing.IsEnabled; string _invocationId = null; if (_shouldTrace) { _invocationId = ServiceClientTracing.NextInvocationId.ToString(); Dictionary <string, object> tracingParameters = new Dictionary <string, object>(); tracingParameters.Add("validateSecretInput", validateSecretInput); tracingParameters.Add("cancellationToken", cancellationToken); ServiceClientTracing.Enter(_invocationId, this, "SecretMethod", tracingParameters); } // Construct URL var _baseUrl = Client.BaseUri.AbsoluteUri; var _url = new System.Uri(new System.Uri(_baseUrl + (_baseUrl.EndsWith("/") ? "" : "/")), "subscriptions/{subscriptionId}/providers/Microsoft.Cdn/validateSecret").ToString(); _url = _url.Replace("{subscriptionId}", System.Uri.EscapeDataString(Client.SubscriptionId)); List <string> _queryParameters = new List <string>(); if (Client.ApiVersion != null) { _queryParameters.Add(string.Format("api-version={0}", System.Uri.EscapeDataString(Client.ApiVersion))); } if (_queryParameters.Count > 0) { _url += (_url.Contains("?") ? "&" : "?") + string.Join("&", _queryParameters); } // Create HTTP transport objects var _httpRequest = new HttpRequestMessage(); HttpResponseMessage _httpResponse = null; _httpRequest.Method = new HttpMethod("POST"); _httpRequest.RequestUri = new System.Uri(_url); // Set Headers if (Client.GenerateClientRequestId != null && Client.GenerateClientRequestId.Value) { _httpRequest.Headers.TryAddWithoutValidation("x-ms-client-request-id", System.Guid.NewGuid().ToString()); } if (Client.AcceptLanguage != null) { if (_httpRequest.Headers.Contains("accept-language")) { _httpRequest.Headers.Remove("accept-language"); } _httpRequest.Headers.TryAddWithoutValidation("accept-language", Client.AcceptLanguage); } if (customHeaders != null) { foreach (var _header in customHeaders) { if (_httpRequest.Headers.Contains(_header.Key)) { _httpRequest.Headers.Remove(_header.Key); } _httpRequest.Headers.TryAddWithoutValidation(_header.Key, _header.Value); } } // Serialize Request string _requestContent = null; if (validateSecretInput != null) { _requestContent = Rest.Serialization.SafeJsonConvert.SerializeObject(validateSecretInput, Client.SerializationSettings); _httpRequest.Content = new StringContent(_requestContent, System.Text.Encoding.UTF8); _httpRequest.Content.Headers.ContentType = System.Net.Http.Headers.MediaTypeHeaderValue.Parse("application/json; charset=utf-8"); } // Set Credentials if (Client.Credentials != null) { cancellationToken.ThrowIfCancellationRequested(); await Client.Credentials.ProcessHttpRequestAsync(_httpRequest, cancellationToken).ConfigureAwait(false); } // Send Request if (_shouldTrace) { ServiceClientTracing.SendRequest(_invocationId, _httpRequest); } cancellationToken.ThrowIfCancellationRequested(); _httpResponse = await Client.HttpClient.SendAsync(_httpRequest, cancellationToken).ConfigureAwait(false); if (_shouldTrace) { ServiceClientTracing.ReceiveResponse(_invocationId, _httpResponse); } HttpStatusCode _statusCode = _httpResponse.StatusCode; cancellationToken.ThrowIfCancellationRequested(); string _responseContent = null; if ((int)_statusCode != 200) { var ex = new AfdErrorResponseException(string.Format("Operation returned an invalid status code '{0}'", _statusCode)); try { _responseContent = await _httpResponse.Content.ReadAsStringAsync().ConfigureAwait(false); AfdErrorResponse _errorBody = Rest.Serialization.SafeJsonConvert.DeserializeObject <AfdErrorResponse>(_responseContent, Client.DeserializationSettings); if (_errorBody != null) { ex.Body = _errorBody; } } catch (JsonException) { // Ignore the exception } ex.Request = new HttpRequestMessageWrapper(_httpRequest, _requestContent); ex.Response = new HttpResponseMessageWrapper(_httpResponse, _responseContent); if (_shouldTrace) { ServiceClientTracing.Error(_invocationId, ex); } _httpRequest.Dispose(); if (_httpResponse != null) { _httpResponse.Dispose(); } throw ex; } // Create Result var _result = new AzureOperationResponse <ValidateSecretOutput>(); _result.Request = _httpRequest; _result.Response = _httpResponse; if (_httpResponse.Headers.Contains("x-ms-request-id")) { _result.RequestId = _httpResponse.Headers.GetValues("x-ms-request-id").FirstOrDefault(); } // Deserialize Response if ((int)_statusCode == 200) { _responseContent = await _httpResponse.Content.ReadAsStringAsync().ConfigureAwait(false); try { _result.Body = Rest.Serialization.SafeJsonConvert.DeserializeObject <ValidateSecretOutput>(_responseContent, Client.DeserializationSettings); } catch (JsonException ex) { _httpRequest.Dispose(); if (_httpResponse != null) { _httpResponse.Dispose(); } throw new SerializationException("Unable to deserialize the response.", _responseContent, ex); } } if (_shouldTrace) { ServiceClientTracing.Exit(_invocationId, _result); } return(_result); }
/** * Build out this source description with a mediator. * * @param mediator The mediator. * @return this. */ public SourceDescription SetMediator(ResourceReference mediator) { Mediator = mediator; return(this); }
public DirectionalLightActor(string name, ResourceReference archetype, string actorLabel, SpawnCollisionHandlingMethod spawnCollisionHandlingMethod, string folderPath, string rootComponentName, Node[] children, string directionalLightComponentName) : base(name, actorLabel, spawnCollisionHandlingMethod, folderPath, rootComponentName, archetype, children) { DirectionalLightComponentName = directionalLightComponentName; }
/** * Build out this source description with a repository. * * @param repository The repository. * @return this. */ public SourceDescription SetRepository(ResourceReference repository) { Repository = repository; return(this); }
private void button1_Click_2(object sender, EventArgs e) { var endpoint = new Uri("http://fhirtest.uhn.ca/baseDstu2"); var client = new FhirClient(endpoint); // Create new value for observation SampledData val = new SampledData(); CodeableConcept concept = new CodeableConcept(); concept.Coding = new List <Coding>(); if (conversionList.Text.Equals("age")) { val.Data = CurrentMeasurement.age.ToString(); Coding code = new Coding(); code.Code = "410668003"; concept.Coding.Add(code); } else if (conversionList.Text.Equals("bmr")) { val.Data = CurrentMeasurement.bmr.ToString(); Coding code = new Coding(); code.Code = "60621009"; concept.Coding.Add(code); } else if (conversionList.Text.Equals("height")) { val.Data = CurrentMeasurement.height.ToString(); Coding code = new Coding(); code.Code = "60621009"; //SNOMED CT code concept.Coding.Add(code); } else if (conversionList.Text.Equals("m_active_time")) { val.Data = CurrentMeasurement.m_active_time.ToString(); } else if (conversionList.Text.Equals("m_calories")) { val.Data = CurrentMeasurement.m_calories.ToString(); } else if (conversionList.Text.Equals("m_distance")) { val.Data = CurrentMeasurement.m_distance.ToString(); } else if (conversionList.Text.Equals("m_inactive_time")) { val.Data = CurrentMeasurement.m_inactive_time.ToString(); } else if (conversionList.Text.Equals("m_lcat")) { val.Data = CurrentMeasurement.m_lcat.ToString(); } else if (conversionList.Text.Equals("m_lcit")) { val.Data = CurrentMeasurement.m_lcit.ToString(); } else if (conversionList.Text.Equals("m_steps")) { val.Data = CurrentMeasurement.m_steps.ToString(); } else if (conversionList.Text.Equals("m_total_calories")) { val.Data = CurrentMeasurement.m_total_calories.ToString(); } else if (conversionList.Text.Equals("s_asleep_time")) { val.Data = CurrentMeasurement.s_asleep_time.ToString(); } else if (conversionList.Text.Equals("s_awake")) { val.Data = CurrentMeasurement.s_awake.ToString(); } else if (conversionList.Text.Equals("s_awake_time")) { val.Data = CurrentMeasurement.s_awake_time.ToString(); } else if (conversionList.Text.Equals("s_awakenings")) { val.Data = CurrentMeasurement.s_awakenings.ToString(); } else if (conversionList.Text.Equals("s_bedtime")) { val.Data = CurrentMeasurement.s_bedtime.ToString(); } else if (conversionList.Text.Equals("s_clinical_deep")) { val.Data = CurrentMeasurement.s_clinical_deep.ToString(); } else if (conversionList.Text.Equals("s_count")) { val.Data = CurrentMeasurement.s_count.ToString(); } else if (conversionList.Text.Equals("s_duration")) { val.Data = CurrentMeasurement.s_duration.ToString(); } else if (conversionList.Text.Equals("s_light")) { val.Data = CurrentMeasurement.s_light.ToString(); } else if (conversionList.Text.Equals("s_quality")) { val.Data = CurrentMeasurement.s_quality.ToString(); } else if (conversionList.Text.Equals("s_rem")) { val.Data = CurrentMeasurement.s_rem.ToString(); } else if (conversionList.Text.Equals("weight")) { val.Data = CurrentMeasurement.weight.ToString(); } else { val.Data = "E"; // Error } Console.WriteLine("Value data: " + val.Data); ResourceReference dev = new ResourceReference(); dev.Reference = "Device/" + CurrentDevice.Id; ResourceReference pat = new ResourceReference(); pat.Reference = "Patient/" + CurrentPatient.Id; Console.WriteLine("Patient reference: " + pat.Reference); Console.WriteLine("Conversion: " + conversionList.Text); CodeableConcept naam = new CodeableConcept(); naam.Text = conversionList.Text; DateTime date = DateTime.ParseExact(CurrentMeasurement.date, "yyyymmdd", null); Console.WriteLine("" + date.ToString()); var obs = new Observation() { Device = dev, Subject = pat, Value = val, Issued = date, Code = naam, Category = concept, Status = Observation.ObservationStatus.Final }; client.Create(obs); conversionStatus.Text = "Done!"; }
public static void ValidateResourceReference(string expectedReference, ResourceReference actualResourceReference) { Assert.NotNull(actualResourceReference); Assert.Equal(expectedReference, actualResourceReference.Reference); }
public void AFDSecretGetListTest() { var handler1 = new RecordedDelegatingHandler { StatusCodeToReturn = HttpStatusCode.OK }; var handler2 = new RecordedDelegatingHandler { StatusCodeToReturn = HttpStatusCode.OK }; using (MockContext context = MockContext.Start(this.GetType())) { // Create clients var cdnMgmtClient = CdnTestUtilities.GetCdnManagementClient(context, handler1); var resourcesClient = CdnTestUtilities.GetResourceManagementClient(context, handler2); // Create resource group var resourceGroupName = CdnTestUtilities.CreateResourceGroup(resourcesClient); try { // Create a standard Azure frontdoor profile string profileName = TestUtilities.GenerateName("profile"); Profile createParameters = new Profile { Location = "WestUs", Sku = new Sku { Name = SkuName.StandardAzureFrontDoor }, Tags = new Dictionary <string, string> { { "key1", "value1" }, { "key2", "value2" } } }; var profile = cdnMgmtClient.Profiles.Create(resourceGroupName, profileName, createParameters); // Create a standard Azure frontdoor profile string secretName = TestUtilities.GenerateName("secretName"); var secretSource = new ResourceReference("/subscriptions/d7cfdb98-c118-458d-8bdf-246be66b1f5e/resourceGroups/cdn-powershell-test/providers/Microsoft.KeyVault/vaults/cdn-powershell-test-kv/certificates/cdn-powershell-test-cer"); CustomerCertificateParameters parameters = new CustomerCertificateParameters(secretSource) { UseLatestVersion = true, SubjectAlternativeNames = new List <string>(), }; var secret = cdnMgmtClient.Secrets.Create(resourceGroupName, profileName, secretName, parameters); Assert.NotNull(secret); Assert.Equal(secretName, secret.Name); var getSecret = cdnMgmtClient.Secrets.Get(resourceGroupName, profileName, secretName); Assert.NotNull(getSecret); Assert.Equal(secretName, getSecret.Name); var listSecrets = cdnMgmtClient.Secrets.ListByProfile(resourceGroupName, profileName); Assert.NotNull(listSecrets); Assert.Single(listSecrets); string secretName2 = TestUtilities.GenerateName("secretName"); var secrets = cdnMgmtClient.Secrets.Create(resourceGroupName, profileName, secretName2, parameters); listSecrets = cdnMgmtClient.Secrets.ListByProfile(resourceGroupName, profileName); Assert.NotNull(listSecrets); Assert.Equal(2, listSecrets.Count()); } finally { // Delete resource group _ = CdnTestUtilities.DeleteResourceGroupAsync(resourcesClient, resourceGroupName); } } }