using System;
using System.IO;
using System.Net.Http;
using System.Threading;
using System.Threading.Tasks;
using Jellyfin.Api.Models.PlaybackDtos;
using Jellyfin.Api.Models.StreamingDtos;
using MediaBrowser.Controller.MediaEncoding;
using Microsoft.AspNetCore.Http;
using Microsoft.AspNetCore.Mvc;
using Microsoft.Net.Http.Headers;
namespace Jellyfin.Api.Helpers
{
///
/// The stream response helpers.
///
public static class FileStreamResponseHelpers
{
///
/// Returns a static file from a remote source.
///
/// The current .
/// Whether the current request is a HTTP HEAD request so only the headers get returned.
/// The making the remote request.
/// The current http context.
/// A cancellation token that can be used to cancel the operation.
/// A containing the API response.
public static async Task GetStaticRemoteStreamResult(
StreamState state,
bool isHeadRequest,
HttpClient httpClient,
HttpContext httpContext,
CancellationToken cancellationToken = default)
{
if (state.RemoteHttpHeaders.TryGetValue(HeaderNames.UserAgent, out var useragent))
{
httpClient.DefaultRequestHeaders.Add(HeaderNames.UserAgent, useragent);
}
// Can't dispose the response as it's required up the call chain.
var response = await httpClient.GetAsync(new Uri(state.MediaPath), cancellationToken).ConfigureAwait(false);
var contentType = response.Content.Headers.ContentType?.ToString();
httpContext.Response.Headers[HeaderNames.AcceptRanges] = "none";
if (isHeadRequest)
{
httpContext.Response.Headers[HeaderNames.ContentType] = contentType;
return new OkResult();
}
return new FileStreamResult(await response.Content.ReadAsStreamAsync(cancellationToken).ConfigureAwait(false), contentType);
}
///
/// Returns a static file from the server.
///
/// The path to the file.
/// The content type of the file.
/// Whether the current request is a HTTP HEAD request so only the headers get returned.
/// The current http context.
/// An the file.
public static ActionResult GetStaticFileResult(
string path,
string contentType,
bool isHeadRequest,
HttpContext httpContext)
{
httpContext.Response.ContentType = contentType;
// if the request is a head request, return an OkResult (200) with the same headers as it would with a GET request
if (isHeadRequest)
{
return new OkResult();
}
return new PhysicalFileResult(path, contentType) { EnableRangeProcessing = true };
}
///
/// Returns a transcoded file from the server.
///
/// The current .
/// Whether the current request is a HTTP HEAD request so only the headers get returned.
/// The current http context.
/// The singleton.
/// The command line arguments to start ffmpeg.
/// The .
/// The .
/// A containing the transcoded file.
public static async Task GetTranscodedFile(
StreamState state,
bool isHeadRequest,
HttpContext httpContext,
TranscodingJobHelper transcodingJobHelper,
string ffmpegCommandLineArguments,
TranscodingJobType transcodingJobType,
CancellationTokenSource cancellationTokenSource)
{
// Use the command line args with a dummy playlist path
var outputPath = state.OutputFilePath;
httpContext.Response.Headers[HeaderNames.AcceptRanges] = "none";
var contentType = state.GetMimeType(outputPath);
// Headers only
if (isHeadRequest)
{
httpContext.Response.Headers[HeaderNames.ContentType] = contentType;
return new OkResult();
}
var transcodingLock = transcodingJobHelper.GetTranscodingLock(outputPath);
await transcodingLock.WaitAsync(cancellationTokenSource.Token).ConfigureAwait(false);
try
{
TranscodingJobDto? job;
if (!File.Exists(outputPath))
{
job = await transcodingJobHelper.StartFfMpeg(state, outputPath, ffmpegCommandLineArguments, httpContext.Request, transcodingJobType, cancellationTokenSource).ConfigureAwait(false);
}
else
{
job = transcodingJobHelper.OnTranscodeBeginRequest(outputPath, TranscodingJobType.Progressive);
state.Dispose();
}
var stream = new ProgressiveFileStream(outputPath, job, transcodingJobHelper);
return new FileStreamResult(stream, contentType);
}
finally
{
transcodingLock.Release();
}
}
}
}