protected async void UpdateIfUriIsInCache(Uri uri, TextBlock cacheStatusTextBlock)
{
var filter = new Windows.Web.Http.Filters.HttpBaseProtocolFilter();
filter.CacheControl.ReadBehavior = Windows.Web.Http.Filters.HttpCacheReadBehavior.OnlyFromCache;
var httpClient = new Windows.Web.Http.HttpClient(filter);
var request = new Windows.Web.Http.HttpRequestMessage(Windows.Web.Http.HttpMethod.Get, uri);
try
{
await httpClient.SendRequestAsync(request);
cacheStatusTextBlock.Text = "Yes";
cacheStatusTextBlock.Foreground = new Windows.UI.Xaml.Media.SolidColorBrush(Windows.UI.Colors.Green);
}
catch
{
cacheStatusTextBlock.Text = "No";
cacheStatusTextBlock.Foreground = new Windows.UI.Xaml.Media.SolidColorBrush(Windows.UI.Colors.Red);
}
}
private async Task<RTHttpRequestMessage> ConvertRequestAsync(HttpRequestMessage request)
{
RTHttpRequestMessage rtRequest = new RTHttpRequestMessage(new RTHttpMethod(request.Method.Method), request.RequestUri);
// We can only control the Version on the first request message since the WinRT API
// has this property designed as a filter/handler property. In addition the overall design
// of HTTP/2.0 is such that once the first request is using it, all the other requests
// to the same endpoint will use it as well.
if (Interlocked.Exchange(ref _filterMaxVersionSet, 1) == 0)
{
_next.MaxVersion = RTHttpVersion.Http11;
}
// Headers
foreach (KeyValuePair<string, IEnumerable<string>> headerPair in request.Headers)
{
foreach (string value in headerPair.Value)
{
bool success = rtRequest.Headers.TryAppendWithoutValidation(headerPair.Key, value);
Debug.Assert(success);
}
}
// Properties
foreach (KeyValuePair<string, object> propertyPair in request.Properties)
{
rtRequest.Properties.Add(propertyPair.Key, propertyPair.Value);
}
// Content
if (request.Content != null)
{
rtRequest.Content = await CreateRequestContentAsync(request, rtRequest.Headers).ConfigureAwait(false);
}
return rtRequest;
}
/// <summary>
/// Called when the download of a DASH or HLS chunk is requested
/// </summary>
private async void AdaptiveMediaSource_DownloadRequested(Windows.Media.Streaming.Adaptive.AdaptiveMediaSource sender, Windows.Media.Streaming.Adaptive.AdaptiveMediaSourceDownloadRequestedEventArgs args)
{
// LogMessage("DownloadRequested for uri: " + args.ResourceUri.ToString());
var deferral = args.GetDeferral();
if (deferral != null)
{
args.Result.ResourceUri = args.ResourceUri;
args.Result.ContentType = args.ResourceType.ToString();
var filter = new Windows.Web.Http.Filters.HttpBaseProtocolFilter();
filter.CacheControl.WriteBehavior = Windows.Web.Http.Filters.HttpCacheWriteBehavior.NoCache;
using (var httpClient = new Windows.Web.Http.HttpClient(filter))
{
try
{
Windows.Web.Http.HttpRequestMessage request = new Windows.Web.Http.HttpRequestMessage(Windows.Web.Http.HttpMethod.Get, args.Result.ResourceUri);
Windows.Web.Http.HttpResponseMessage response = await httpClient.SendRequestAsync(request);
// args.Result.ExtendedStatus = (uint)response.StatusCode;
if (response.IsSuccessStatusCode)
{
//args.Result.ExtendedStatus = (uint)response.StatusCode;
args.Result.InputStream = await response.Content.ReadAsInputStreamAsync();
}
else
LogMessage("DownloadRequested for uri: " + args.ResourceUri.ToString() + " error: " + response.StatusCode.ToString());
}
catch (Exception e)
{
LogMessage("DownloadRequested for uri: " + args.ResourceUri.ToString() + " exception: " + e.Message);
}
// LogMessage("DownloadRequested for uri: " + args.ResourceUri.ToString() + " done");
deferral.Complete();
}
}
}
public static async Task<GameDescriptionAndRating> GetGameConfigFomServer(AppDataContext appDataContext)
{
JsonObject jsonParameter = ToJsonForGetExpansions(appDataContext);
string parameter = jsonParameter.Stringify();
var fullUrl = new System.Text.StringBuilder();
fullUrl.Append(WebService.webUrl);
fullUrl.Append("?action=GET&values=");
fullUrl.Append(parameter.Replace(" ", "%20"));
try
{
using (var client = new Windows.Web.Http.HttpClient())
using (var request = new Windows.Web.Http.HttpRequestMessage())
{
request.RequestUri = new System.Uri(fullUrl.ToString());
using (Windows.Web.Http.HttpResponseMessage responseMessage = await client.SendRequestAsync(request).AsTask())
{
if (responseMessage.IsSuccessStatusCode)
{
string strResult = await responseMessage.Content.ReadAsStringAsync().AsTask();
GameDescriptionAndRating description = WebService.GetGameDescriptionFromJson(strResult);
System.Diagnostics.Debug.WriteLine("Get Response from server:");
System.Diagnostics.Debug.WriteLine(strResult);
return description;
}
}
}
} catch (System.Exception)
{
}
return null;
}
public static async Task SendGameConfigToServer(AppDataContext appDataContext)
{
GameDescription gameDescription = appDataContext.GetGameConfig().gameDescription;
JsonObject json = WebService.ToJson(gameDescription, appDataContext.DeckRating.Value);
string parameter = json.Stringify();
var fullUrl = new System.Text.StringBuilder();
fullUrl.Append(WebService.webUrl);
fullUrl.Append("?action=RECORD&values=");
fullUrl.Append(parameter.Replace(" ", "%20"));
try
{
using (var client = new Windows.Web.Http.HttpClient())
using (var request = new Windows.Web.Http.HttpRequestMessage())
{
request.RequestUri = new System.Uri(fullUrl.ToString());
using (Windows.Web.Http.HttpResponseMessage responseMessage = await client.SendRequestAsync(request).AsTask())
{
if (responseMessage.IsSuccessStatusCode)
{
string strResult = await responseMessage.Content.ReadAsStringAsync().AsTask();
System.Diagnostics.Debug.WriteLine("RECORD Reponse from server:");
System.Diagnostics.Debug.WriteLine(strResult);
}
}
}
}
catch (System.Exception)
{ }
}
private async Task<RTHttpRequestMessage> ConvertRequestAsync(HttpRequestMessage request)
{
RTHttpRequestMessage rtRequest = new RTHttpRequestMessage(new RTHttpMethod(request.Method.Method), request.RequestUri);
// We can only control the Version on the first request message since the WinRT API
// has this property designed as a filter/handler property. In addition the overall design
// of HTTP/2.0 is such that once the first request is using it, all the other requests
// to the same endpoint will use it as well.
if (Interlocked.Exchange(ref _filterMaxVersionSet, 1) == 0)
{
RTHttpVersion maxVersion;
if (request.Version == HttpVersionInternal.Version20)
{
maxVersion = RTHttpVersion.Http20;
}
else if (request.Version == HttpVersionInternal.Version11)
{
maxVersion = RTHttpVersion.Http11;
}
else if (request.Version == HttpVersionInternal.Version10)
{
maxVersion = RTHttpVersion.Http10;
}
else
{
// TODO (#7878): We need to throw an exception here similar to .NET Desktop
// throw new ArgumentException(SR.GetString(SR.net_wrongversion), "value");
//
// But we need to do that checking in the HttpClientHandler object itself.
// and we have that bug as well for the WinHttpHandler version also.
maxVersion = RTHttpVersion.Http11;
}
// The default for WinRT HttpBaseProtocolFilter.MaxVersion is HttpVersion.Http20.
// So, we only have to change it if we don't want HTTP/2.0.
if (maxVersion != RTHttpVersion.Http20)
{
_next.MaxVersion = maxVersion;
}
}
// Headers
foreach (KeyValuePair<string, IEnumerable<string>> headerPair in request.Headers)
{
foreach (string value in headerPair.Value)
{
bool success = rtRequest.Headers.TryAppendWithoutValidation(headerPair.Key, value);
Debug.Assert(success);
}
}
// Properties
foreach (KeyValuePair<string, object> propertyPair in request.Properties)
{
rtRequest.Properties.Add(propertyPair.Key, propertyPair.Value);
}
// Content
if (request.Content != null)
{
rtRequest.Content = await CreateRequestContentAsync(request, rtRequest.Headers).ConfigureAwait(false);
}
return rtRequest;
}
/// <summary>
/// SetAudioVideoUrl
/// Prepare the MediaElement to play audio or video content
/// </summary>
/// <param name="content">Url string of the content to play </param>
/// <returns>true if success</returns>
private async System.Threading.Tasks.Task<bool> SetAudioVideoUrl(string Content)
{
try
{
if (IsLocalFile(Content))
{
Windows.Storage.StorageFile file = await GetFileFromLocalPathUrl(Content);
if (file != null)
{
mediaPlayer.Source = Windows.Media.Core.MediaSource.CreateFromStorageFile(file);
/*
var fileStream = await file.OpenAsync(Windows.Storage.FileAccessMode.Read);
if (fileStream != null)
{
mediaPlayer.SetStreamSource(fileStream);
mediaPlayer.SetFileSource(file);
return true;
}*/
}
else
LogMessage("Failed to load media file: " + Content);
}
else if (!IsAdaptiveStreaming(Content))
{
if (httpHeaders != null)
{
try
{
Windows.Web.Http.HttpClient httpClient = new Windows.Web.Http.HttpClient();
Windows.Web.Http.HttpRequestMessage request = new Windows.Web.Http.HttpRequestMessage(Windows.Web.Http.HttpMethod.Get, new Uri(Content));
SetHttpHeaders(httpHeaders, request.Headers);
Windows.Web.Http.HttpResponseMessage response = await httpClient.SendRequestAsync(request, Windows.Web.Http.HttpCompletionOption.ResponseHeadersRead);
if (response.IsSuccessStatusCode)
{
string contentType = "video/mp4";
if (response.Content.Headers.ContainsKey("Content-Type"))
{
contentType = response.Content.Headers["Content-Type"];
}
var inputStream = await response.Content.ReadAsInputStreamAsync();
var memStream = new MemoryStream();
await inputStream.AsStreamForRead().CopyToAsync(memStream);
mediaPlayer.Source = Windows.Media.Core.MediaSource.CreateFromStream(memStream.AsRandomAccessStream(), contentType);
}
else
LogMessage("DownloadRequested for uri: " + Content.ToString() + " error: " + response.StatusCode.ToString());
}
catch (Exception e)
{
LogMessage("DownloadRequested for uri: " + Content.ToString() + " exception: " + e.Message);
}
}
else
{
mediaPlayer.Source = Windows.Media.Core.MediaSource.CreateFromUri(new Uri(Content));
}
return true;
}
else
{
// If SMOOTH stream
if (IsSmoothStreaming(Content))
{
mediaPlayer.Source = Windows.Media.Core.MediaSource.CreateFromUri(new Uri(Content));
return true;
}
else
{
// If DASH or HLS content
// Create the AdaptiveMediaSource
Windows.Media.Streaming.Adaptive.AdaptiveMediaSourceCreationResult result = null;
if (httpHeaders != null)
{
try
{
Windows.Web.Http.HttpClient httpClient = new Windows.Web.Http.HttpClient();
SetHttpHeaders(httpHeaders, httpClient.DefaultRequestHeaders);
result = await Windows.Media.Streaming.Adaptive.AdaptiveMediaSource.CreateFromUriAsync(new Uri(Content), httpClient);
}
catch (Exception e)
{
LogMessage("Exception while downloading DASH or HLS manifest: " + e.Message);
}
}
else
result = await Windows.Media.Streaming.Adaptive.AdaptiveMediaSource.CreateFromUriAsync(new Uri(Content));
if (result.Status == Windows.Media.Streaming.Adaptive.AdaptiveMediaSourceCreationStatus.Success)
{
if (adaptiveMediaSource != null)
{
adaptiveMediaSource.DownloadBitrateChanged -= AdaptiveMediaSource_DownloadBitrateChanged;
adaptiveMediaSource.DownloadCompleted -= AdaptiveMediaSource_DownloadCompleted;
adaptiveMediaSource.DownloadFailed -= AdaptiveMediaSource_DownloadFailed;
adaptiveMediaSource.DownloadRequested -= AdaptiveMediaSource_DownloadRequested;
adaptiveMediaSource.PlaybackBitrateChanged -= AdaptiveMediaSource_PlaybackBitrateChanged;
}
adaptiveMediaSource = result.MediaSource;
adaptiveMediaSource.DownloadBitrateChanged += AdaptiveMediaSource_DownloadBitrateChanged;
adaptiveMediaSource.DownloadCompleted += AdaptiveMediaSource_DownloadCompleted;
adaptiveMediaSource.DownloadFailed += AdaptiveMediaSource_DownloadFailed;
adaptiveMediaSource.DownloadRequested += AdaptiveMediaSource_DownloadRequested;
adaptiveMediaSource.PlaybackBitrateChanged += AdaptiveMediaSource_PlaybackBitrateChanged;
LogMessage("Available bitrates: ");
uint startupBitrate = 0;
foreach (var b in adaptiveMediaSource.AvailableBitrates)
{
LogMessage("bitrate: " + b.ToString() + " b/s ");
if ((startupBitrate == 0) &&
(b >= MinBitRate) &&
(b <= MaxBitRate))
startupBitrate = b;
}
// Set bitrate range for HLS and DASH
if(startupBitrate>0)
adaptiveMediaSource.InitialBitrate = startupBitrate;
adaptiveMediaSource.DesiredMaxBitrate = MaxBitRate;
adaptiveMediaSource.DesiredMinBitrate = MinBitRate;
mediaPlayer.Source = Windows.Media.Core.MediaSource.CreateFromAdaptiveMediaSource(adaptiveMediaSource);
return true;
}
else
LogMessage("Failed to create AdaptiveMediaSource: " + result.Status.ToString());
}
}
}
catch (Exception ex)
{
LogMessage("Exception Playing: " + ex.Message.ToString());
CurrentMediaUrl = string.Empty;
CurrentPosterUrl = string.Empty;
}
return false;
}
public void loadURL(string url, Dictionary<string, object> options)
{
var httpReferrer = options.itemOrDefault<string>("httpReferrer");
var userAgent = options.itemOrDefault<string>("userAgent");
var extraHeaders = options.itemOrDefault<Dictionary<string, object>>("extraHeaders");
var uri = new Uri(url);
var request = new Windows.Web.Http.HttpRequestMessage(Windows.Web.Http.HttpMethod.Get, uri);
if ((userAgent) != null)
request.Headers["User-Agent"] = userAgent;
if ((httpReferrer) != null)
request.Headers["Referrer"] = httpReferrer;
if ((extraHeaders) != null)
{
foreach (var item in extraHeaders)
{
request.Headers[item.Key] = item.Value as string;
}
}
webView.NavigateWithHttpRequestMessage(request);
}
