Tutorial: Conectar usando tareas y solicitud HTTP XML (IXHR2)
Este ejemplo muestra cómo utilizar las interfaces de IXMLHTTPRequest2 y de IXMLHTTPRequest2Callback así como tareas de enviar HTTP GET y OF ENVIAR solicitudes a un servicio web en una aplicación de Tienda Windows.Combinando IXHR2 así como tareas, puede escribir código que crea con otras tareas.Por ejemplo, puede utilizar la tarea de descarga como parte de una cadena de tareas.La tarea de descarga pueden responder cuando el trabajo está cancelado.
Para obtener más información acerca de las tareas, vea Paralelismo de tareas (Runtime de simultaneidad).Para obtener más información sobre cómo usar tareas en una aplicación de Tienda Windows, vea Asynchronous programming in C++ y Crear operaciones asincrónicas en C++ para aplicaciones de la Tienda Windows.
Este documento se muestra primero cómo crear HttpRequest y sus clases auxiliares.A continuación se muestra cómo utilizar esta clase de una aplicación de Tienda Windows que utiliza C++ y XAML.
Para obtener un ejemplo más completo que utiliza la clase de HttpReader descrita en este documento, vea Desarrollar Optimizador de recorridos de Mapas de Bing, una aplicación de la Tienda Windows en JavaScript y C++.Para obtener otro ejemplo que utilice IXHR2 pero no use tareas, vea Quickstart: Connecting using XML HTTP Request (IXHR2).
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IXMLHTTPRequest2 y IXMLHTTPRequest2Callback son las interfaces que se recomienda para el uso en una aplicación de Tienda Windows.También puede adaptar este ejemplo para el uso en una aplicación de escritorio. |
Definición de HttpRequest, de HttpRequestBuffersCallback, y las clases de HttpRequestStringCallback
Cuando se utiliza la interfaz de IXMLHTTPRequest2 para crear solicitudes web sobre HTTP, implementa la interfaz de IXMLHTTPRequest2Callback para recibir la respuesta del servidor y reaccionar a otros eventos.Este ejemplo define la clase de HttpRequest para crear solicitudes web, y las clases de HttpRequestBuffersCallback y de HttpRequestStringCallback para procesar las respuestas.Las clases de HttpRequestBuffersCallback y de HttpRequestStringCallback admiten la clase de HttpRequest; solo trabaja con la clase de HttpRequest de código de la aplicación.
GetAsync, métodos de PostAsync de la clase de HttpRequest permite iniciar HTTP GET y EN ENVIAR operaciones, respectivamente.Estos métodos utilizan la clase de HttpRequestStringCallback para leer la respuesta del servidor como una cadena.Los métodos de SendAsync y de ReadAsync permiten transmitir el contenido grande en partes.Estos métodos cada valor devuelto concurrency::task para representar la operación.Los métodos de GetAsync y de PostAsync genera el valor de task<std::wstring>, donde la parte de wstring representa la respuesta del servidor.Los métodos de SendAsync y de ReadAsync generan los valores de task<void>; estas tareas completadas cuando el envío y las operaciones de lectura se completa.
Dado que las interfaces IXHR2 actúan de forma asincrónica, este ejemplo utilizan concurrency::task_completion_event para crear una tarea completar después de que el objeto de devolución de llamada complete o cancele la operación de descarga.La clase de HttpRequest crea una continuación tarea-basada de esta tarea de establecer el resultado final.La clase de HttpRequest utiliza una continuación tarea- basada para garantizar que la tarea de continuación ejecuta aunque la tarea anterior genera un error o se cancela.Para obtener más información sobre las continuaciones tarea- basadas en, vea Paralelismo de tareas (Runtime de simultaneidad)
Para admitir la cancelación, HttpRequest, HttpRequestBuffersCallback, y las clases de HttpRequestStringCallback utilizan tokens de cancelación.Las clases de HttpRequestBuffersCallback y de HttpRequestStringCallback utilizan el método de concurrency::cancellation_token::register_callback para permitir al evento de finalización de la tarea para responder a la cancelación.Esta devolución de llamada de cancelación cancela la descarga.Para obtener más información sobre la cancelación, vea Cancelación en la biblioteca PPL.
Para Definir la clase de HttpRequest
Utilice la plantilla de Visual C++ Aplicación en blanco (XAML) para crear un proyecto de aplicación de espacio en blanco XAML.Nombres de este ejemplo el proyecto UsingIXHR2.
Agregue al proyecto un archivo de encabezado que se denomina HttpRequest.h y un archivo de código fuente denominado HttpRequest.cpp.
En pch.h, agregue este código:
#include <ppltasks.h> #include <string> #include <sstream> #include <wrl.h> #include <msxml6.h>En HttpRequest.h, agregue este código:
#pragma once #include "pch.h" inline void CheckHResult(HRESULT hResult) { if (hResult == E_ABORT) { concurrency::cancel_current_task(); } else if (FAILED(hResult)) { throw Platform::Exception::CreateException(hResult); } } namespace Web { namespace Details { // Implementation of IXMLHTTPRequest2Callback used when partial buffers are needed from the response. // When only the complete response is needed, use HttpRequestStringCallback instead. class HttpRequestBuffersCallback : public Microsoft::WRL::RuntimeClass< Microsoft::WRL::RuntimeClassFlags<Microsoft::WRL::ClassicCom>, IXMLHTTPRequest2Callback, Microsoft::WRL::FtmBase> { public: HttpRequestBuffersCallback(IXMLHTTPRequest2* httpRequest, concurrency::cancellation_token ct = concurrency::cancellation_token::none()) : request(httpRequest), cancellationToken(ct), responseReceived(false), dataHResult(S_OK), statusCode(200) { // Register a callback function that aborts the HTTP operation when // the cancellation token is canceled. if (cancellationToken != concurrency::cancellation_token::none()) { registrationToken = cancellationToken.register_callback([this]() { if (request != nullptr) { request->Abort(); } }); } dataEvent = concurrency::task_completion_event<void>(); } // Called when the HTTP request is being redirected to a new URL. IFACEMETHODIMP OnRedirect(IXMLHTTPRequest2*, PCWSTR) { return S_OK; } // Called when HTTP headers have been received and processed. IFACEMETHODIMP OnHeadersAvailable(IXMLHTTPRequest2*, DWORD statusCode, PCWSTR reasonPhrase) { HRESULT hr = S_OK; // We must not propagate exceptions back to IXHR2. try { this->statusCode = statusCode; this->reasonPhrase = reasonPhrase; concurrency::critical_section::scoped_lock lock(dataEventLock); dataEvent.set(); } catch (std::bad_alloc&) { hr = E_OUTOFMEMORY; } return hr; } // Called when a portion of the entity body has been received. IFACEMETHODIMP OnDataAvailable(IXMLHTTPRequest2*, ISequentialStream* stream) { HRESULT hr = S_OK; // We must not propagate exceptions back to IXHR2. try { // Store a reference on the stream so it can be accessed by the task. dataStream = stream; // The work must be done as fast as possible, and must not block this thread, // for example, waiting on another event object. Here we simply set an event // that can be processed by another thread. concurrency::critical_section::scoped_lock lock(dataEventLock); dataEvent.set(); } catch (std::bad_alloc&) { hr = E_OUTOFMEMORY; } return hr; } // Called when the entire entity response has been received. IFACEMETHODIMP OnResponseReceived(IXMLHTTPRequest2* xhr, ISequentialStream* responseStream) { responseReceived = true; return OnDataAvailable(xhr, responseStream); } // Called when an error occurs during the HTTP request. IFACEMETHODIMP OnError(IXMLHTTPRequest2*, HRESULT hrError) { HRESULT hr = S_OK; // We must not propagate exceptions back to IXHR2. try { concurrency::critical_section::scoped_lock lock(dataEventLock); dataHResult = hrError; dataEvent.set(); } catch (std::bad_alloc&) { hr = E_OUTOFMEMORY; } return hr; } // Create a task that completes when data is available, in an exception-safe way. concurrency::task<void> CreateDataTask(); HRESULT GetError() const { return dataHResult; } int GetStatusCode() const { return statusCode; } std::wstring const& GetReasonPhrase() const { return reasonPhrase; } bool IsResponseReceived() const { return responseReceived; } // Copy bytes from the sequential stream into the buffer provided until // we reach the end of one or the other. unsigned int ReadData( _Out_writes_(outputBufferSize) byte* outputBuffer, unsigned int outputBufferSize); private: ~HttpRequestBuffersCallback() { // Unregister the callback. if (cancellationToken != concurrency::cancellation_token::none()) { cancellationToken.deregister_callback(registrationToken); } } // Signals that the download operation was canceled. concurrency::cancellation_token cancellationToken; // Used to unregister the cancellation token callback. concurrency::cancellation_token_registration registrationToken; // The IXMLHTTPRequest2 that processes the HTTP request. Microsoft::WRL::ComPtr<IXMLHTTPRequest2> request; // Task completion event that is set when data is available or error is triggered. concurrency::task_completion_event<void> dataEvent; concurrency::critical_section dataEventLock; // We cannot store the error obtained from IXHR2 in the dataEvent since any value there is first-writer-wins, // whereas we want a subsequent error to override an initial success. HRESULT dataHResult; // Referenced pointer to the data stream. Microsoft::WRL::ComPtr<ISequentialStream> dataStream; // HTTP status code and reason returned by the server. int statusCode; std::wstring reasonPhrase; // Whether the response has been completely received. bool responseReceived; }; }; // Utility class for performing asynchronous HTTP requests. // This class only supports one outstanding request at a time. class HttpRequest { public: HttpRequest(); int GetStatusCode() const { return statusCode; } std::wstring const& GetReasonPhrase() const { return reasonPhrase; } // Whether the response has been completely received, if using ReadAsync(). bool IsResponseComplete() const { return responseComplete; } // Start an HTTP GET on the specified URI. The returned task completes once the entire response // has been received, and the task produces the HTTP response text. The status code and reason // can be read with GetStatusCode() and GetReasonPhrase(). concurrency::task<std::wstring> GetAsync( Windows::Foundation::Uri^ uri, concurrency::cancellation_token cancellationToken = concurrency::cancellation_token::none()); // Start an HTTP POST on the specified URI, using a string body. The returned task produces the // HTTP response text. The status code and reason can be read with GetStatusCode() and GetReasonPhrase(). concurrency::task<std::wstring> PostAsync( Windows::Foundation::Uri^ uri, PCWSTR contentType, IStream* postStream, uint64 postStreamSizeToSend, concurrency::cancellation_token cancellationToken = concurrency::cancellation_token::none()); // Start an HTTP POST on the specified URI, using a stream body. The returned task produces the // HTTP response text. The status code and reason can be read with GetStatusCode() and GetReasonPhrase(). concurrency::task<std::wstring> PostAsync( Windows::Foundation::Uri^ uri, const std::wstring& str, concurrency::cancellation_token cancellationToken = concurrency::cancellation_token::none()); // Send a request but don't return the response. Instead, let the caller read it with ReadAsync(). concurrency::task<void> SendAsync( const std::wstring& httpMethod, Windows::Foundation::Uri^ uri, concurrency::cancellation_token cancellationToken = concurrency::cancellation_token::none()); // Read a chunk of data from the HTTP response, up to a specified length or until we reach the end // of the response, and store the value in the provided buffer. This is useful for large content, // enabling the streaming of the result. concurrency::task<void> ReadAsync( Windows::Storage::Streams::IBuffer^ readBuffer, unsigned int offsetInBuffer, unsigned int requestedBytesToRead); static void CreateMemoryStream(IStream **stream); private: // Start a download of the specified URI using the specified method. The returned task produces the // HTTP response text. The status code and reason can be read with GetStatusCode() and GetReasonPhrase(). concurrency::task<std::wstring> DownloadAsync( PCWSTR httpMethod, PCWSTR uri, concurrency::cancellation_token cancellationToken, PCWSTR contentType, IStream* postStream, uint64 postStreamBytesToSend); // Referenced pointer to the callback, if using SendAsync/ReadAsync. Microsoft::WRL::ComPtr<Details::HttpRequestBuffersCallback> buffersCallback; int statusCode; std::wstring reasonPhrase; // Whether the response has been completely received, if using ReadAsync(). bool responseComplete; }; };En HttpRequest.cpp, agregue este código:
#include "pch.h" #include "HttpRequest.h" #include <robuffer.h> #include <shcore.h> using namespace concurrency; using namespace Microsoft::WRL; using namespace Platform; using namespace std; using namespace Web; using namespace Windows::Foundation; using namespace Windows::Storage::Streams; // Implementation of IXMLHTTPRequest2Callback used when only the complete response is needed. // When processing chunks of response data as they are received, use HttpRequestBuffersCallback instead. class HttpRequestStringCallback : public RuntimeClass<RuntimeClassFlags<ClassicCom>, IXMLHTTPRequest2Callback, FtmBase> { public: HttpRequestStringCallback(IXMLHTTPRequest2* httpRequest, cancellation_token ct = concurrency::cancellation_token::none()) : request(httpRequest), cancellationToken(ct) { // Register a callback function that aborts the HTTP operation when // the cancellation token is canceled. if (cancellationToken != cancellation_token::none()) { registrationToken = cancellationToken.register_callback([this]() { if (request != nullptr) { request->Abort(); } }); } } // Called when the HTTP request is being redirected to a new URL. IFACEMETHODIMP OnRedirect(IXMLHTTPRequest2*, PCWSTR) { return S_OK; } // Called when HTTP headers have been received and processed. IFACEMETHODIMP OnHeadersAvailable(IXMLHTTPRequest2*, DWORD statusCode, PCWSTR reasonPhrase) { HRESULT hr = S_OK; // We must not propagate exceptions back to IXHR2. try { this->statusCode = statusCode; this->reasonPhrase = reasonPhrase; } catch (std::bad_alloc&) { hr = E_OUTOFMEMORY; } return hr; } // Called when a portion of the entity body has been received. IFACEMETHODIMP OnDataAvailable(IXMLHTTPRequest2*, ISequentialStream*) { return S_OK; } // Called when the entire entity response has been received. IFACEMETHODIMP OnResponseReceived(IXMLHTTPRequest2*, ISequentialStream* responseStream) { wstring wstr; HRESULT hr = ReadUtf8StringFromSequentialStream(responseStream, wstr); // We must not propagate exceptions back to IXHR2. try { completionEvent.set(make_tuple<HRESULT, wstring>(move(hr), move(wstr))); } catch (std::bad_alloc&) { hr = E_OUTOFMEMORY; } return hr; } // Simulate the functionality of DataReader.ReadString(). // This is needed because DataReader requires IRandomAccessStream and this // code has an ISequentialStream that does not have a conversion to IRandomAccessStream like IStream does. HRESULT ReadUtf8StringFromSequentialStream(ISequentialStream* readStream, wstring& str) { // Convert the response to Unicode wstring. HRESULT hr; // Holds the response as a Unicode string. wstringstream ss; while (true) { ULONG cb; char buffer[4096]; // Read the response as a UTF-8 string. Since UTF-8 characters are 1-4 bytes long, // we need to make sure we only read an integral number of characters. So we'll // start with 4093 bytes. hr = readStream->Read(buffer, sizeof(buffer) - 3, &cb); if (FAILED(hr) || (cb == 0)) { break; // Error or no more data to process, exit loop. } if (cb == sizeof(buffer) - 3) { ULONG subsequentBytesRead; unsigned int i, cl; // Find the first byte of the last UTF-8 character in the buffer. for (i = cb - 1; (i >= 0) && ((buffer[i] & 0xC0) == 0x80); i--); // Calculate the number of subsequent bytes in the UTF-8 character. if (((unsigned char)buffer[i]) < 0x80) { cl = 1; } else if (((unsigned char)buffer[i]) < 0xE0) { cl = 2; } else if (((unsigned char)buffer[i]) < 0xF0) { cl = 3; } else { cl = 4; } // Read any remaining bytes. if (cb < i + cl) { hr = readStream->Read(buffer + cb, i + cl - cb, &subsequentBytesRead); if (FAILED(hr)) { break; // Error, exit loop. } cb += subsequentBytesRead; } } // First determine the size required to store the Unicode string. int const sizeRequired = MultiByteToWideChar(CP_UTF8, 0, buffer, cb, nullptr, 0); if (sizeRequired == 0) { // Invalid UTF-8. hr = HRESULT_FROM_WIN32(GetLastError()); break; } unique_ptr<char16[]> wstr(new(std::nothrow) char16[sizeRequired + 1]); if (wstr.get() == nullptr) { hr = E_OUTOFMEMORY; break; } // Convert the string from UTF-8 to UTF-16LE. This can never fail, since // the previous call above succeeded. MultiByteToWideChar(CP_UTF8, 0, buffer, cb, wstr.get(), sizeRequired); wstr[sizeRequired] = L'\0'; // Terminate the string. ss << wstr.get(); // Write the string to the stream. } str = SUCCEEDED(hr) ? ss.str() : wstring(); return (SUCCEEDED(hr)) ? S_OK : hr; // Don't return S_FALSE. } // Called when an error occurs during the HTTP request. IFACEMETHODIMP OnError(IXMLHTTPRequest2*, HRESULT hrError) { HRESULT hr = S_OK; // We must not propagate exceptions back to IXHR2. try { completionEvent.set(make_tuple<HRESULT, wstring>(move(hrError), wstring())); } catch (std::bad_alloc&) { hr = E_OUTOFMEMORY; } return hr; } // Retrieves the completion event for the HTTP operation. task_completion_event<tuple<HRESULT, wstring>> const& GetCompletionEvent() const { return completionEvent; } int GetStatusCode() const { return statusCode; } wstring GetReasonPhrase() const { return reasonPhrase; } private: ~HttpRequestStringCallback() { // Unregister the callback. if (cancellationToken != cancellation_token::none()) { cancellationToken.deregister_callback(registrationToken); } } // Signals that the download operation was canceled. cancellation_token cancellationToken; // Used to unregister the cancellation token callback. cancellation_token_registration registrationToken; // The IXMLHTTPRequest2 that processes the HTTP request. ComPtr<IXMLHTTPRequest2> request; // Task completion event that is set when the // download operation completes. task_completion_event<tuple<HRESULT, wstring>> completionEvent; int statusCode; wstring reasonPhrase; }; // Copy bytes from the sequential stream into the buffer provided until // we reach the end of one or the other. unsigned int Web::Details::HttpRequestBuffersCallback::ReadData( _Out_writes_(outputBufferSize) byte* outputBuffer, unsigned int outputBufferSize) { // Lock the data event while doing the read, to ensure that any bytes we don't read will // result in the correct event getting triggered. concurrency::critical_section::scoped_lock lock(dataEventLock); ULONG bytesRead; CheckHResult(dataStream.Get()->Read(outputBuffer, outputBufferSize, &bytesRead)); if (bytesRead < outputBufferSize) { // We need to reset the data event, which we can only do by creating a new one. dataEvent = task_completion_event<void>(); } return bytesRead; } // Create a task that completes when data is available, in an exception-safe way. task<void> Web::Details::HttpRequestBuffersCallback::CreateDataTask() { concurrency::critical_section::scoped_lock lock(dataEventLock); return create_task(dataEvent, cancellationToken); } HttpRequest::HttpRequest() : responseComplete(true), statusCode(200) { } // Start a download of the specified URI using the specified method. The returned task produces the // HTTP response text. The status code and reason can be read with GetStatusCode() and GetReasonPhrase(). task<wstring> HttpRequest::DownloadAsync(PCWSTR httpMethod, PCWSTR uri, cancellation_token cancellationToken, PCWSTR contentType, IStream* postStream, uint64 postStreamSizeToSend) { // Create an IXMLHTTPRequest2 object. ComPtr<IXMLHTTPRequest2> xhr; CheckHResult(CoCreateInstance(CLSID_XmlHttpRequest, nullptr, CLSCTX_INPROC, IID_PPV_ARGS(&xhr))); // Create callback. auto stringCallback = Make<HttpRequestStringCallback>(xhr.Get(), cancellationToken); CheckHResult(stringCallback ? S_OK : E_OUTOFMEMORY); auto completionTask = create_task(stringCallback->GetCompletionEvent()); // Create a request. CheckHResult(xhr->Open(httpMethod, uri, stringCallback.Get(), nullptr, nullptr, nullptr, nullptr)); if (postStream != nullptr && contentType != nullptr) { CheckHResult(xhr->SetRequestHeader(L"Content-Type", contentType)); } // Send the request. CheckHResult(xhr->Send(postStream, postStreamSizeToSend)); // Return a task that completes when the HTTP operation completes. // We pass the callback to the continuation because the lifetime of the // callback must exceed the operation to ensure that cancellation // works correctly. return completionTask.then([this, stringCallback](tuple<HRESULT, wstring> resultTuple) { // If the GET operation failed, throw an Exception. CheckHResult(std::get<0>(resultTuple)); statusCode = stringCallback->GetStatusCode(); reasonPhrase = stringCallback->GetReasonPhrase(); return std::get<1>(resultTuple); }); } // Start an HTTP GET on the specified URI. The returned task completes once the entire response // has been received, and the task produces the HTTP response text. The status code and reason // can be read with GetStatusCode() and GetReasonPhrase(). task<wstring> HttpRequest::GetAsync(Uri^ uri, cancellation_token cancellationToken) { return DownloadAsync(L"GET", uri->AbsoluteUri->Data(), cancellationToken, nullptr, nullptr, 0); } void HttpRequest::CreateMemoryStream(IStream **stream) { auto randomAccessStream = ref new Windows::Storage::Streams::InMemoryRandomAccessStream(); CheckHResult(CreateStreamOverRandomAccessStream(randomAccessStream, IID_PPV_ARGS(stream))); } // Start an HTTP POST on the specified URI, using a string body. The returned task produces the // HTTP response text. The status code and reason can be read with GetStatusCode() and GetReasonPhrase(). task<wstring> HttpRequest::PostAsync(Uri^ uri, const wstring& body, cancellation_token cancellationToken) { int length = 0; ComPtr<IStream> postStream; CreateMemoryStream(&postStream); if (body.length() > 0) { // Get the required buffer size. int size = WideCharToMultiByte(CP_UTF8, // UTF-8 0, // Conversion type body.c_str(), // Unicode string to convert static_cast<int>(body.length()), // Size nullptr, // Output buffer 0, // Output buffer size nullptr, nullptr); CheckHResult((size != 0) ? S_OK : HRESULT_FROM_WIN32(GetLastError())); std::unique_ptr<char[]> tempData(new char[size]); length = WideCharToMultiByte(CP_UTF8, // UTF-8 0, // Conversion type body.c_str(), // Unicode string to convert static_cast<int>(body.length()), // Size tempData.get(), // Output buffer size, // Output buffer size nullptr, nullptr); CheckHResult((length != 0) ? S_OK : HRESULT_FROM_WIN32(GetLastError())); CheckHResult(postStream->Write(tempData.get(), length, nullptr)); } return DownloadAsync(L"POST", uri->AbsoluteUri->Data(), cancellationToken, L"text/plain;charset=utf-8", postStream.Get(), length); } // Start an HTTP POST on the specified URI, using a stream body. The returned task produces the // HTTP response text. The status code and reason can be read with GetStatusCode() and GetReasonPhrase(). task<wstring> HttpRequest::PostAsync(Uri^ uri, PCWSTR contentType, IStream* postStream, uint64 postStreamSizeToSend, cancellation_token cancellationToken) { return DownloadAsync(L"POST", uri->AbsoluteUri->Data(), cancellationToken, contentType, postStream, postStreamSizeToSend); } // Send a request but don't return the response. Instead, let the caller read it with ReadAsync(). task<void> HttpRequest::SendAsync(const wstring& httpMethod, Uri^ uri, cancellation_token cancellationToken) { // Create an IXMLHTTPRequest2 object. ComPtr<IXMLHTTPRequest2> xhr; CheckHResult(CoCreateInstance(CLSID_XmlHttpRequest, nullptr, CLSCTX_INPROC, IID_PPV_ARGS(&xhr))); // Create callback. buffersCallback = Make<Web::Details::HttpRequestBuffersCallback>(xhr.Get(), cancellationToken); CheckHResult(buffersCallback ? S_OK : E_OUTOFMEMORY); ComPtr<IXMLHTTPRequest2Callback> xhrCallback; CheckHResult(buffersCallback.As(&xhrCallback)); // Open and send the request. CheckHResult(xhr->Open(httpMethod.c_str(), uri->AbsoluteUri->Data(), xhrCallback.Get(), nullptr, nullptr, nullptr, nullptr)); responseComplete = false; CheckHResult(xhr->Send(nullptr, 0)); // Return a task that completes when the HTTP operation completes. // Since buffersCallback holds a reference on the callback, the lifetime of the callback will exceed // the operation and ensure that cancellation works correctly. return buffersCallback->CreateDataTask().then([this]() { CheckHResult(buffersCallback->GetError()); statusCode = buffersCallback->GetStatusCode(); reasonPhrase = buffersCallback->GetReasonPhrase(); }); } // Read a chunk of data from the HTTP response, up to a specified length or until we reach the end // of the response, and store the value in the provided buffer. This is useful for large content, // enabling the streaming of the result. task<void> HttpRequest::ReadAsync(Windows::Storage::Streams::IBuffer^ readBuffer, unsigned int offsetInBuffer, unsigned int requestedBytesToRead) { if (offsetInBuffer + requestedBytesToRead > readBuffer->Capacity) { throw ref new InvalidArgumentException(); } // Return a task that completes when a read completes. // We pass the callback to the continuation because the lifetime of the // callback must exceed the operation to ensure that cancellation // works correctly. return buffersCallback->CreateDataTask().then([this, readBuffer, offsetInBuffer, requestedBytesToRead]() { CheckHResult(buffersCallback->GetError()); // Get a pointer to the location to copy data into. ComPtr<IBufferByteAccess> bufferByteAccess; CheckHResult(reinterpret_cast<IUnknown*>(readBuffer)->QueryInterface(IID_PPV_ARGS(&bufferByteAccess))); byte* outputBuffer; // Returned internal pointer, do not free this value. CheckHResult(bufferByteAccess->Buffer(&outputBuffer)); // Copy bytes from the sequential stream into the buffer provided until // we reach the end of one or the other. readBuffer->Length = buffersCallback->ReadData(outputBuffer + offsetInBuffer, requestedBytesToRead); if (buffersCallback->IsResponseReceived() && (readBuffer->Length < requestedBytesToRead)) { responseComplete = true; } }); }
Usar la clase de HttpRequest en una aplicación de Tienda Windows
En esta sección se muestra cómo utilizar la clase de HttpRequest en una aplicación de Tienda Windows.La aplicación proporciona un cuadro de entrada que defina un recurso de dirección URL, y los comandos de botón que realizan GET y ENVÍAN operaciones, y un comando del botón que cancele la operación actual.
Use la clase de HttpRequest
En MainPage.xaml, defina el elemento StackPanel como sigue.
<StackPanel HorizontalAlignment="Left" Width="440" Background="{StaticResource ApplicationPageBackgroundThemeBrush}"> <TextBox x:Name="InputTextBox" TextWrapping="Wrap" Text="https://www.fourthcoffee.com/"/> <StackPanel Orientation="Horizontal"> <Button x:Name="GetButton" Content="Get" Background="Green" Click="GetButton_Click"/> <Button x:Name="PostButton" Content="Post" Background="Blue" Click="PostButton_Click"/> <Button x:Name="CancelButton" Content="Cancel" Background="Red" IsEnabled="False" Click="CancelButton_Click"/> <ProgressRing x:Name="ResponseProgressRing" /> </StackPanel> <TextBlock x:Name="ResponseTextBlock" TextWrapping="Wrap"/> </StackPanel>En MainPage.xaml.h, agregue esta directiva de #include:
#include "HttpRequest.h"En MainPage.xaml.h, agregue a estas variables miembro de private a la clase de MainPage:
// Produces HTTP requets. Web::HttpRequest m_httpRequest; // Enables us to cancel the active HTTP request. concurrency::cancellation_token_source m_cancelHttpRequestSource;En MainPage.xaml.h, declare el método ProcessHttpRequest de private:
// Displays the result of the provided HTTP request on the UI. void ProcessHttpRequest(concurrency::task<std::wstring> httpRequest);En MainPage.xaml.cpp, agregue estas instrucciones de using:
using namespace concurrency; using namespace std; using namespace Web;En MainPage.xaml.cpp, implemente GetButton_Click, PostButton_Click, y los métodos de CancelButton_Click de la clase de MainPage.
void MainPage::GetButton_Click(Object^ sender, RoutedEventArgs^ e) { // Create a new cancellation token source for the web request. m_cancelHttpRequestSource = cancellation_token_source(); // Set up the GET request parameters. auto uri = ref new Uri(InputTextBox->Text); auto token = m_cancelHttpRequestSource.get_token(); // Send the request and then update the UI. ProcessHttpRequest(m_httpRequest.GetAsync(uri, token)); } void MainPage::PostButton_Click(Object^ sender, RoutedEventArgs^ e) { // Create a new cancellation token source for the web request. m_cancelHttpRequestSource = cancellation_token_source(); // Set up the POST request parameters. auto uri = ref new Uri(InputTextBox->Text); wstring postData(L"This is sample POST data."); auto token = m_cancelHttpRequestSource.get_token(); // Send the request and then update the UI. ProcessHttpRequest(m_httpRequest.PostAsync(uri, postData, token)); } void MainPage::CancelButton_Click(Object^ sender, RoutedEventArgs^ e) { // Disable the Cancel button. // It will be re-enabled during the next web request. CancelButton->IsEnabled = false; // Initiate cancellation. m_cancelHttpRequestSource.cancel(); }SugerenciaSi la aplicación no requiere la compatibilidad con la cancelación, pase concurrency::cancellation_token::none a los métodos de HttpRequest::GetAsync y de HttpRequest::PostAsync.
En MainPage.xaml.cpp, implemente el método de MainPage::ProcessHttpRequest.
// Displays the result of the provided HTTP request on the UI. void MainPage::ProcessHttpRequest(task<wstring> httpRequest) { // Enable only the Cancel button. GetButton->IsEnabled = false; PostButton->IsEnabled = false; CancelButton->IsEnabled = true; // Clear the previous response and start the progress ring. ResponseTextBlock->Text = ""; ResponseProgressRing->IsActive = true; // Create a continuation that shows the results on the UI. // The UI must be updated on the ASTA thread. // Therefore, schedule the continuation to run on the current context. httpRequest.then([this](task<wstring> previousTask) { try { // // Show the result on the UI. wstring response = previousTask.get(); if (m_httpRequest.GetStatusCode() == 200) { // The request succeeded. Show the response. ResponseTextBlock->Text = ref new String(response.c_str()); } else { // The request failed. Show the status code and reason. wstringstream ss; ss << L"The server returned " << m_httpRequest.GetStatusCode() << L" (" << m_httpRequest.GetReasonPhrase() << L')'; ResponseTextBlock->Text = ref new String(ss.str().c_str()); } } catch (const task_canceled&) { // Indicate that the operation was canceled. ResponseTextBlock->Text = "The operation was canceled"; } catch (Exception^ e) { // Indicate that the operation failed. ResponseTextBlock->Text = "The operation failed"; // TODO: Handle the error further. (void)e; } // Enable the Get and Post buttons. GetButton->IsEnabled = true; PostButton->IsEnabled = true; CancelButton->IsEnabled = false; // Stop the progress ring. ResponseProgressRing->IsActive = false; }, task_continuation_context::use_current()); }En las propiedades del proyecto, en Vinculador, Entrada, especifica shcore.lib y msxml6.lib.
Ésta es la aplicación actual:
.png "Aplicación de la Tienda Windows en ejecución")
Pasos siguientes
Tutoriales del Runtime de simultaneidad
Vea también
Referencia
task (Clase) (Motor en tiempo de ejecución de simultaneidad)
Conceptos
Paralelismo de tareas (Runtime de simultaneidad)
Cancelación en la biblioteca PPL
Crear operaciones asincrónicas en C++ para aplicaciones de la Tienda Windows
Otros recursos
Asynchronous programming in C++