Microsoft Media Foundation Full Playback Topology

Question

I am new to COM and Windows programming. I am trying to play a mp3 file using media foundation.

Below is the code which I have tried to execute on windows 10. Here is the overview what I did in this code.

I first initialize the COM Then I start the Media Foundation. Then I created media source with the help of source resolver Then I created a MP3 Decoder MFT Then I created a Audio Media Activation object Then I created a Audio Media Sink Then I created a Topology Then I created 3 topology nodes and added Media source, Mp3 Decoder and Audio Media sink to it. Then I added all the topology nodes to the topology Then I created the Media Session and added the topology to media session Then I started the media session. Then I release all the COM objects. Then I shutdown the Media Foundation. Then I uninitialized the COM.

But unfortunately, the file does not start playing.

Please tell what is wrong with my code.

// ConsoleApplication1.cpp : This file contains the 'main' function. Program execution begins and ends there.
//

#include <iostream>
#include <mfapi.h>
#include <mfidl.h>
#include <mfreadwrite.h>
#include <Wmcodecdsp.h>
#include <combaseapi.h>
#include <mferror.h>
#include <tchar.h>
#include <evr.h>

int main()
{
    HRESULT hr = CoInitialize(NULL);

    if (FAILED(hr)) {
        std::cout << "cannot initilize COM";
    }

   
   
        // Initialize the Media Foundation platform.
  hr=     MFStartup(MF_VERSION);

  if (FAILED(hr)) {
      std::cout << "cannot initilize MF";
  }
      
            MF_OBJECT_TYPE ObjectType = MF_OBJECT_INVALID;
            IMFSourceResolver* pSourceResolver;
            IUnknown* pSource = nullptr;
            IMFMediaSource* mSource;
            IMFPresentationDescriptor* ppPresentationDescriptor;
            IMFTransform* mtransform = NULL;
            IMFTopology* topology = NULL;
            IMFStreamDescriptor* sdesip = NULL;
            IMFTopologyNode* source = NULL;
            IMFTopologyNode* transform;
            IMFTopologyNode* output = NULL;
            IMFMediaSink* mediasink = NULL;
            IMFMediaTypeHandler* mediatypehandler;
            IMFMediaType* mediatype;
            IMFMediaType* decodermediatype;
            IMFMediaSession* mediasession;
            DWORD streamdesip;

   hr =      MFCreateSourceResolver(&pSourceResolver);

   if (FAILED(hr)) {
       std::cout << "cannot create source resolver";
   }
           

      hr =    pSourceResolver->CreateObjectFromURL(
                L"song.mp3",                       // URL of the source.
                MF_RESOLUTION_MEDIASOURCE,  // Create a source object.
                NULL,                       // Optional property store.
                &ObjectType,     // Receives the created object type. 
                &pSource          // Receives a pointer to the media source.
            );
         
      if (FAILED(hr)) {
          std::cout << "media source";
      }
         hr =  pSource->QueryInterface(IID_PPV_ARGS(&mSource));

         if (FAILED(hr)) {
             std::cout << "media source interface";
         }



      hr =      mSource->CreatePresentationDescriptor(&ppPresentationDescriptor);

      if (FAILED(hr)) {
          std::cout << "presentation discriptor";
      }

            ppPresentationDescriptor->SelectStream(0);
         hr = CoCreateInstance(__uuidof(CMP3DecMediaObject),
                NULL,
                CLSCTX_INPROC_SERVER,
                IID_IMFTransform,
                (void**)&mtransform);
        
         
         if (FAILED(hr)) {
             std::cout << "Decoder";
         }
      hr =      MFCreateTopology(
                &topology
            );

      if (FAILED(hr)) {
          std::cout << "topology";
      }

     hr =       MFCreateTopologyNode(MF_TOPOLOGY_SOURCESTREAM_NODE, &source);

     if (FAILED(hr)) {
         std::cout << "source topology node";
     }

       hr =     source->SetUnknown(MF_TOPONODE_SOURCE, mSource);

       if (FAILED(hr)) {
           std::cout << "source set to topology node";
       }
         hr =   source->SetUnknown(MF_TOPONODE_PRESENTATION_DESCRIPTOR, ppPresentationDescriptor);

         if (FAILED(hr)) {
             std::cout << "desciption set to topology node";
         }
            BOOL value;
         hr =   ppPresentationDescriptor->GetStreamDescriptorByIndex(0, &value, &sdesip);
         if (FAILED(hr)) {
             std::cout << "stream desciption get";
         }

         sdesip->GetStreamIdentifier(&streamdesip);
          
hr =  sdesip->GetMediaTypeHandler(&mediatypehandler);

if (FAILED(hr)) {
    std::cout << "media handler";
}

       hr=      mediatypehandler->GetCurrentMediaType(&mediatype);

       if (FAILED(hr)) {
           std::cout << "current media type";
       }
           

       hr =      source->SetUnknown(MF_TOPONODE_STREAM_DESCRIPTOR, sdesip);

       if (FAILED(hr)) {
           std::cout << "set stream desiptor";
       }

      hr =      topology->AddNode(source);

      if (FAILED(hr)) {
          std::cout << "add source node";
      }

        hr =     MFCreateTopologyNode(MF_TOPOLOGY_TRANSFORM_NODE, &transform);

        if (FAILED(hr)) {
            std::cout << "transform node";
        }
           hr =  MFCreateMediaType(&decodermediatype);

           if (FAILED(hr)) {
               std::cout << "decoder media type";
           }


           mediatype->CopyAllItems(decodermediatype);
           

            if (FAILED(hr)) {
                std::cout << "set major type";
            }

           hr =  decodermediatype->SetGUID(MF_MT_SUBTYPE, MFAudioFormat_PCM);

           if (FAILED(hr)) {
               std::cout << "set sub type";
           }


         

     


     








       hr =    mtransform->SetInputType(0, mediatype, NULL);

       if (SUCCEEDED(hr)) {
          
       }

       IMFMediaType* newmediatype;
      hr = MFCreateMediaType(&newmediatype);

      if (FAILED(hr)) {
          std::cout << "unable to create";
      }

       hr = mtransform->GetOutputAvailableType(0, 1, &newmediatype);

       if (FAILED(hr)) {
           std::cout << "nodata";
       }
        hr =     mtransform->SetOutputType(0, newmediatype, 0);

        if (FAILED(hr)) {
            std::cout << "output";
        }

       

           

       
         hr =    transform->SetObject(mtransform);

         if (FAILED(hr)) {
             std::cout << "set transform node";
         }

           hr =  topology->AddNode(transform);

           if (FAILED(hr)) {
               std::cout << "add trasnform node";
           }

            IMFActivate* active;


           hr =  MFCreateAudioRendererActivate(&active);

          if (FAILED(hr)) {
              
              std::cout << "active object";
          }

         
        
          

        hr =     active->ActivateObject(__uuidof(IMFMediaSink), (void**)&mediasink);


        if (FAILED(hr)) {
           
            std::cout << "media sink";
        }
           
           
      hr =       MFCreateTopologyNode(MF_TOPOLOGY_OUTPUT_NODE, &output);

      if (FAILED(hr)) {

          std::cout << "output node topology";
      }

      IMFStreamSink* streamsink;

     hr  =  mediasink->GetStreamSinkByIndex(0, &streamsink);

     if (FAILED(hr)) {

         std::cout << "get stream sink";
     }

   hr =    output->SetObject(streamsink);

   if (FAILED(hr)) {

       std::cout << "set out put node";
   }

        hr =     output->SetUINT32(MF_TOPONODE_STREAMID, 0);


        if (FAILED(hr)) {

            std::cout << "uint set";
        }
          hr =  output->SetUINT32(MF_TOPONODE_NOSHUTDOWN_ON_REMOVE, FALSE);
          if (FAILED(hr)) {

              std::cout << "uint set";
          }
       hr =     topology->AddNode(output);
       if (FAILED(hr)) {

           std::cout << "add topo node output";
       }

     hr =   source->ConnectOutput(0, transform, 0);

     if (FAILED(hr)) {

         std::cout << "connect source";
     }

       hr =    transform->ConnectOutput(0, output, 0);

       if (FAILED(hr)) {

           std::cout << "connect output";
       }

  hr =          MFCreateMediaSession(
                NULL,
                &mediasession
            );

  if (FAILED(hr)) {

      std::cout << "create media session";
  }
 hr = mediasession->SetTopology(MFSESSION_SETTOPOLOGY_IMMEDIATE, topology);
 if (FAILED(hr)) {

     std::cout << "fail to set topology";
 }

            PROPVARIANT var;
            PropVariantInit(&var);
            
           
       hr =      mediasession->Start(&GUID_NULL, &var);

       if (FAILED(hr)) {

           std::cout << "media session start";
       }

          pSourceResolver->Release();
            pSource->Release();
            mSource->Release();
           ppPresentationDescriptor->Release();
           mtransform->Release();
           topology->Release();
           sdesip->Release();
           source->Release();
           transform->Release();
          output->Release();
           mediatypehandler->Release();
            mediatype->Release();
          decodermediatype->Release();
         
            mediasession->Release();
            mediasink->Release();

            MFShutdown();

        
        CoUninitialize();
        }
    


    

Answer 1

For educational purposes, I converted your code snippet to minimalistic sample under 100 lines of code that works.

https://github.com/roman380/MediaFoundationMinimalAudioPlayback

I removed decoder MFT because it can be supplied automatically during topology resolution, so this might be a starting point for you to add nodes yourself and enable MFSESSION_SETTOPOLOGY_NORESOLUTION if this was your original intent (or if this was your attempt to get something that works then you probably don't need it).

C:\Project\alax.info\...\build>debug\Sandbox.exe
Event: 101
Event: 112
Event: 110
Event: 111
Event: 111
Event: 2
Event: 110
Event: 103
^C

Next steps:

1. Check event codes (101 = MESessionTopologySet etc)
2. When the topology is ready, you can check it out, esp. what transforms are added, what are the media types and so on; note that resolution is asynchronous and so you cannot check this too early, before you get the respective event
3. You can add transforms yourself along the lines of Media Foundation's logic you are seeing as a part of automatic topology resolution

Answer 2

I modified code a bit and removed the Decoder MFT. Now I am using partial topology. One important thing which I was missing in the code is that my application exit as soon as it starts executing. I added a std::cin at the bottom to stop my application exiting. The code is working on my machine. Hope this code will work on other machines as well. Here is the link of the code.

https://github.com/khuramhaf/Microsoft-Media-Foundation-Playback-Topology